EXPLORING A STORY-BASED LEARNING
DESIGN IN A GRADE 4 SCIENCE AND
TECHNOLOGY CLASSROOM
By
Hermione Kemp
Submitted in fulfilment of the requirements for the degree of
Magister Educationis
In the Faculty of Education at the Nelson Mandela Metropolitan
University
Promoter/ Supervisor: Dr Kathija Adam
May 2014
i
DECLARATION
I, Hermione Kemp, hereby declare that this dissertation is my own work and that it has not
previously been submitted for assessment or completion of any postgraduate qualification to
another University or for another qualification.
______________ ______________
Hermione Kemp Date
ii
ACKNOWLEDGEMENTS
First and foremost, I would like to thank my Lord and Saviour, Jesus Christ who blessed me
with the opportunity to do this research and for walking this road with me. It was through
prayer that I was able to complete this journey.
I wish to express my heartfelt thanks to my parents for all their support, patience and spiritual
guidance throughout my studies. Their prayers carried me through every day. A child can
never have enough words of thanks and gratitude for their parents.
To my boyfriend, thank you for your valuable support, guidance, input, the knowledge that
you were able to share with me and most importantly your love and care. There were many
days when I felt as though I would not be able to make it through this year and your words of
encouragement always made me smile.
I would like to thank Dr Adam for her caring nature and personal interest in my life and my
postgraduate journey. I was not just a student but a person. She sees the potential in her
students and works toward empowering them. Thank you for your unlimited guidance and
life lessons.
Gratitude and appreciation goes to my fellow student, Rochelle Thorne, who travelled this
journey with me. We spent many hours laughing through our frustration. Thank you for your
continuous support and encouragement.
Lastly, a special word of thanks to my extended family and close friends for their prayers,
support and the continuous interest in my research.
iii
ABSTRACT
Stories are a vehicle through which experiences and events are communicated amongst
people. Stories have the potential to influence people’s understandings and beliefs, and
essentially, promote a societal and cultural change. Grounded in literature pointing to the
value of narrative in supporting learning and the need to explore new modes of
communicating science, this study explores the potential of narrative in science education.
The aim was to explore the use of a Story-Based Learning Design in a Grade 4 Science and
Technology classroom. Using a qualitative case study research design the researcher took on
the role of participant-observer. Data were collected through observations, learner verbal and
written descriptions of a final product and teacher reflective interviews. The findings of this
study illustrate the value of stories, as learning tools, in science education. In this regard
pertinent conclusions were derived, namely, that stories attract learners and have the potential
to be used as a vehicle for learning scientific concepts and the target vocabulary, that stories
enable learners to make meaning of abstract concepts and relate it to their world and finally
that the use of the imagination assists learners to visualise concepts making learning relevant.
iv
TABLE OF CONTENTS
DECLARATION....................................................................................................................... i
ACKNOWLEDGEMENTS .................................................................................................... ii
ABSTRACT ............................................................................................................................ iii
TABLE OF CONTENTS ....................................................................................................... iv
LIST OF FIGURES ............................................................................................................... vii
LIST OF TABLES ............................................................................................................... viii
Chapter 1: Introduction and Overview ........................................................................... 1
1.1 Introduction ................................................................................................................. 1
1.2 Science is “abstract, difficult and irrelevant” .............................................................. 3
1.3 Significance of the Study ............................................................................................ 4
1.4 Research Questions and Sub-Questions ...................................................................... 5
1.5 Research Design .......................................................................................................... 5
1.6 Limitations .................................................................................................................. 7
1.7 Definitions of Concepts ............................................................................................... 7
1.8 Organisation of this Study ........................................................................................... 8
1.9 Conclusion ................................................................................................................... 9
Chapter 2: Literature Review ......................................................................................... 10
2.1 Introduction ............................................................................................................... 10
2.2 Theoretical Considerations ........................................................................................ 10
2.3 What’s in a Story? ..................................................................................................... 13
2.4 Narratives .................................................................................................................. 15
2.4.1 The Effect of Narratives on Learning ................................................................ 17
2.4.2 The Pedagogical Function of the Narrative ....................................................... 18
2.5 Conclusion ................................................................................................................. 20
v
Chapter 3: Research Methodology ................................................................................. 21
3.1 Introduction ............................................................................................................... 21
3.2 A Qualitative Case Study Research Design .............................................................. 21
3.2.1 Features of a Qualitative Research Design ........................................................ 23
3.2.1.1 Assumptions about the World .................................................................... 23
3.2.1.2 Goals ........................................................................................................... 23
3.2.1.3 Multi-method Strategies ............................................................................. 23
3.2.1.4 Researcher Role .......................................................................................... 24
3.2.1.5 Context Sensitivity ..................................................................................... 24
3.3 Context ...................................................................................................................... 24
3.4 Research Methods ..................................................................................................... 26
3.4.1 Ethical considerations ........................................................................................ 26
3.4.1.1 Informed Consent ....................................................................................... 26
3.4.1.2 Confidentiality and Anonymity .................................................................. 27
3.4.1.3 Deception and Privacy ................................................................................ 27
3.4.1.4 Harm, Caring and Fairness ......................................................................... 27
3.4.1.5 Participant’s Right to Decline ..................................................................... 28
3.4.2 Approaches to verification and standards of quality .......................................... 28
3.5 Data Collection Strategies ......................................................................................... 29
3.5.1 Unstructured Observations and Debrief Notes .................................................. 30
3.5.2 Planning, piloting and implementing a Story-Based Learning Design.............. 32
3.5.3 Semi-structured Exit Interview .......................................................................... 34
3.6 Data Analysis ............................................................................................................ 34
3.7 Conclusion ................................................................................................................. 36
vi
Chapter 4: Analysis of Findings ..................................................................................... 37
4.1 Introduction ............................................................................................................... 37
4.2 Context ...................................................................................................................... 37
4.3 Analysis of Findings.................................................................................................. 38
4.3.1 Pre-Research Observations (Base-Line Data) ................................................... 38
4.3.2 Observations during the Research Process ........................................................ 40
4.3.3 Implementation of a Story-Based Learning Design........................................... 43
4.3.3.1 Maya’s Palace ............................................................................................. 47
4.3.3.2 Thabo’s Arches ........................................................................................... 48
4.3.3.3 Vusi’s Red House ....................................................................................... 49
4.3.3.4 Nzuzo’s Garage .......................................................................................... 50
4.3.3.5 Babi’s Spaza ............................................................................................... 51
4.3.4 Assimilation of Learner Data ............................................................................. 52
4.4 Teacher Perspectives ................................................................................................. 54
4.5 Conclusion ................................................................................................................. 55
Chapter 5: Conclusion and Recommendations ............................................................. 56
5.1 Introduction ............................................................................................................... 56
5.2 Summary and Conclusions ........................................................................................ 56
5.3 Recommendations ..................................................................................................... 59
5.4 Conclusion ................................................................................................................. 60
References ............................................................................................................................... 61
APPENDIX A: Ethics approval ............................................................................................ 69
APPENDIX B: Grade 4 Unit Plan ........................................................................................ 70
APPENDIX C: Target Vocabulary ...................................................................................... 74
APPENDIX D: Lesson Activities .......................................................................................... 75
APPENDIX E: Interview Questions..................................................................................... 80
vii
LIST OF FIGURES
Figure 4-1: Maya's Place .......................................................................................................... 47
Figure 4-2: Thabo’s Arches ..................................................................................................... 48
Figure 4-3: Vusi’s Red House.................................................................................................. 49
Figure 4-4: Nzuzo’s Garage ..................................................................................................... 50
Figure 4-5: Babi’s Spaza .......................................................................................................... 51
viii
LIST OF TABLES
Table 2-1: Four perspectives on the main features of a Narrative .......................................... 16
Table 3-1: Brief Overview of KN Primary School .................................................................. 25
Table 3-2: Summary of Strategies used for Trustworthiness................................................... 29
Table 3-3: Data Instruments used in this study ........................................................................ 30
Table 3-4: Data Analysis Processes ......................................................................................... 35
Table 4-1: Assimilation of Data from Culminating Activity ................................................... 44
ix
WHY WE TELL STORIES? By: Lisel Mueller
Because we used to have leaves
and on damp days
our muscles feel a tug,
painful now, from when roots
pulled us into the ground
and because our children believe
they can fly, an instinct retained
from when the bones in our arms
were shaped like zithers and broke
neatly under their feathers
and because before we had lungs
we knew how far it was to the bottom
as we floated open-eyed
like painted scarves through the scenery
of dreams, and because we awakened
and learned to speak
We sat by the fire in our caves,
and because we were poor, we made up a tale
about a treasure mountain
that would open only for us
and because we were always defeated,
we invented impossible riddles
only we could solve,
monsters only we could kill,
women who could love no one else
and because we had survived
sisters and brothers, daughters and sons,
we discovered bones that rose
from the dark earth and sang
as white birds in the trees
Because the story of our life
becomes our life
Because each of us tells
the same story
but tells it differently
and none of us tells it
the same way twice
Because grandmothers looking like spiders
want to enchant the children
and grandfathers need to convince us
what happened, happened because of them
and though we listen only
haphazardly, with one ear,
we will begin our story
with the word and…
1
Chapter 1: Introduction and Overview
“Stories held the key to the traditions, the rituals, and the social ways of the indigenous passing of messages
about loyalty, respect, responsibility, honesty, humility, trust, and sharing – all those qualities that helped them
within the relationships in their daily lives. Storytelling was much more than a pastime, rather it was a social
institution, an “oral university” that taught people young and old about being “human” – that is, how to function
in the community. Traditional repertoires of oral tales embody systems of belief and guiding principles of
personal behaviour that are as relevant today as they were in centuries past. In today’s communities, storytelling
can be an important teaching strategy as it creates bonds, increases listening skills and fosters communication.”
(McLean & Wason-Ellam, 2006, p. 2)
1.1 Introduction
In the rural contexts of South Africa, English is not the primary language of the teachers and
the learners (Setati, Adler, Reed & Bapoo, 2002, p. 129). Setati et al., (2002, p. 129) further
explain that the English language teachers are responsible for teaching English as an
additional language and, unfortunately, the mathematics and science teachers are faced with
the challenge of teaching their subject in English. These facts are true in the South African
context, as many of the teachers are not fluent in English as, it is not their first language or a
language that they are familiar with. Therefore, the “English language infrastructure” (Setati
et al., 2002, p. 130) of the rural schools are extremely limited, and creates great challenges in
the classroom. The current teaching methods have not adequately addressed these language
barrier challenges, as a constant decline is seen in reports received about science in South
African schools. Teaching methods to overcome these challenges need to be explored, as
improvements in Science, in South African schools will significantly impact the leaners
ability to study science and technology from a young age. These advancements are required
for the success of the new technology age in South Africa.
There are different methods of teaching, such as stories. These different teaching methods
should be explored in order to determine if they can contribute to the improvements that are
needed within the South African context. This research study is aimed at using stories to
impact the future of the learner’s ability to study science and technology.
Stories are used as a method of teaching and learning. It is a tradition that exists in every
culture. It is “as old as speech,” (Atta-Alla, 2012, p. 2), “a mode of thought, a communication
2
strategy and a form of expression, it is universal [and perhaps the] most dominant form of
discourse,” (Bruner, 1996, p. 37). As humans, we grow up listening to stories, we tell our
own stories and we use stories to communicate with each other and to understand the world.
Essentially, stories and legends encapsulate oral and cultural wisdom.
A wide body of research (Egan, 2007, p. 72; Zipes, 2004, p. 9 & Grugeon & Gardner, 2000,
p. 56) in several disciplines suggests that narrative understanding is a concept of growing
importance in discussions of how children learn. With the widespread availability of
technology, it is also true, that the nature and media of stories have become more advanced.
Hence, in understanding the different elements used for storytelling a new avenue toward
instructional purposes is opened. According to Donald Norman (1993, p. 129 cited in
Diermyer & Blakesley, 2009, p. 1), stories have the ability to “encapsulate, into one compact
package, information, knowledge, context, and emotion.” Teaching science through stories
could promote science as a story in itself by involving and stimulating interest in listeners
(Yulianty & Premadi, 2010, p. 174). In addition, children’s imaginations are more readily
stimulated by content that engages their emotions than content that does not do so.
There is strong evidence to suggest that stories could be used as a tool for teaching and
learning (Barnett & Hodson, 2001 cited in Murmann & Avraamidou, 2013, p. 1) as it has the
potential for being used as a vehicle for communicating science. Stories are also used in our
everyday lives as a means of communicating everyday understandings, experiences and
events. Norfolk, Stenson and Williams (2006, p. 5) further suggest that stories can be used in
science as a tool to access ideas, beliefs and values in non-Western cultures and to provide
cross-cultural and diverse understandings of the scientific world. This idea is connected to the
argument made by researchers about the importance of exemplifying indigenous knowledge
systems (IKS) alongside the Western science paradigm and the predominant Eurocentric
culture of school science (Aikenhead & Ogawa, 2007 cited in Murmann & Avraamidou,
2013, p. 2). In addition, Sanfeliz and Stalzer (2003, p. 64) emphasise that “interest and
attitudes are important aspects of science learning as it motivates learners to become
scientifically literate.” Capturing the interest of learners should be a foremost concern as it is
a mechanism for motivation and for developing a positive attitude amongst learners.
However, Millar (2008, p. 2) observes the opposite as “learners describe their experience of
school science as abstract, difficult and irrelevant.”
3
1.2 Science is “abstract, difficult and irrelevant”
A study entitled Exploring Young People’s Views on Education (NFER, 2011, p. 6) found
that science is ‘”heavily laden with content and required more work than the other subjects.”
It also mentioned that young people would be more involved with science if it were
significant and relevant to their everyday life. Such negativity impacts learner motivation and
their ability to connect science to a familiar worldview (Jegede & Kyle, 2007 & Fensham,
2008, cited in Villanueva, 2010, p. 15). In South Africa, the added burden for a vast majority
of second language learners is that they have to study the subject of science with its field-
specific language and concepts in English [which is not their mother-tongue]. The barrier that
language imposes on the learning of science is a significant one.
This significant barrier is evident by the educational crisis in South Africa being confirmed
by the record of numeracy and literacy levels being lower than the expected level (ANA,
2012, p. 3). This necessitates a review of how teaching and learning takes place in
classrooms. Hoadley (2010, p. 15) for example reports very low level conceptual demands
made on learners in South African classrooms with little reading, writing or engagement with
books. In addition, Muller (1989 cited in Hoadley, 2010, p. 9) in his analysis of two science
classrooms, eschewed the notion that drill and rote procedures in classrooms are rooted in
culture or personal preference, rather he verifies that these are related to the former restricted
learning of teachers. He observed that:
“Black teachers had little opportunity to internalise the grammar of science to teach it appropriately. Thus rote-
learning routines were an exigency resorted to by people operating within a particular communicative contract.”
(Muller, 1989 cited in Hoadley, 2010, p. 9).
This means that black teachers were not exposed to different methods of teaching and
learning with regard to science education. It has been easier to use a traditional teacher-
centred approach, where the teacher is the expert and drill and rote-learning routines are the
expected norm of the classroom. Therefore, the learners have become passive learners.
Despite reform efforts espousing to a more learner-centred approach, literature reports that
this has not translated into practice in the vast majority of South African classrooms (Davis,
2010, p. 7 & Hoadley, 2010, p. 15). Adding to the complexity is the fact that the majority of
4
South African learners and teachers are second-language English speakers who have to teach
and learn science in English. As a contribution to on-going classroom-based debates around
language and its influence on teaching and learning, the present study seeks to consider a
Story-Based Learning Design as both a literacy tool and a stimulus for the learning of science
and technology in primary school classrooms. The use of stories has the potential to create a
bridge between what is abstract and what is known to the learner.
1.3 Significance of the Study
School science provides students with objective truths, utilising a language which is strongly
rooted in a scientific tradition and context (Lemke, 1990 cited in Murmann & Avraamidou,
2013, p. 3). Such an approach to science instruction and communication has been widely
criticised by various researchers (Duschl, Scheingruber & Shouse, 2007 cited in Murmann &
Avraamidou, 2013, p. 3 & Osborne 2007, p. 173). Osborne (2007, p. 173) has criticised that
the most dominant form of science education relies on a set of values that have no merit. It is
further explained that this has a negative impact on the learners’ attitude toward science. In
essence, science education should be to develop scientific literacy (Osborne, 2007, p. 173).
However, science teachers have to a large extent continued with a traditional, teacher-centred
approach (Barnett & Hodson, 2001 cited in Murmann & Avraamidou, 2013, p. 3) despite
reform efforts towards an inquiry-based and learner-centred delivery.
Hence, this study seeks to explore the use of a Story-Based Learning Design as a literacy tool
and a stimulus for teaching science and technology in South African primary school
classrooms. While such a strategy could improve verbal as well as writing and reading skills,
a particular emphasis is placed, in this study, on learner talk as a primary mechanism for the
communication of scientific ideas. In ascertaining the impact of the use of stories in teaching
and learning, the following main and sub-research questions guide this study.
5
1.4 Research Questions and Sub-Questions
The main research question of this study can be framed as follows:
To what extent can a Story-Based Learning Design influence verbal and written descriptions
of scientific concepts using target vocabulary in a Grade 4 Science and Technology
classroom?
Sub-questions related to the main research questions include:
What is the current practice of teaching and learning in the classroom?
To what extent does a Story-Based Learning Design stimulate learner talk using the
target vocabulary when describing scientific ideas?
To what extent does a Story-Based Learning Design enhance the learner’s use of the
target vocabulary when writing descriptions of scientific ideas? and
What is the teacher perspective of the use of a Story-Based Learning Design?
In order to explore the main and sub-research questions, a qualitative case study research
design with the researcher as participant-observer was deemed appropriate for the purpose of
this study.
1.5 Research Design
“Qualitative research is a naturalistic inquiry, with the use of non-interfering data collection
strategies to discover the natural flow of events and processes and how participants interpret
them,” (Denzin & Lincoln, 2005, p. 126). Most qualitative research describes and analyses
people’s individual and collective social actions, beliefs, thoughts and perceptions. Therefore,
the qualitative case study research design is appropriate as the focus will be on measuring the
teacher and learners thought processes and perceptions after the inclusion of a story.
Qualitative researchers collect data by interacting with selected persons in their settings and
by obtaining relevant documents (Creswell, 2007, p. 76). The design of this study is based on
an in-depth data collection involving multiple sources in an information rich context
(Merriam, 1998, p. 86 & Creswell, 2007, p. 122).
6
Due to the exploratory nature of this study, a pragmatic method of investigation was
considered suitable, where a story was used as the vehicle of learning in a unit of study from
the Grade 4 Natural Science Curriculum, Assessment and Policy Statement (CAPS)
curriculum. A Quintile three township school in the Uitenhage district, in the Eastern Cape
was chosen as the context because all learners were English second language speakers being
taught by teachers who are English second language speakers themselves in this context.
Based on the school’s Annual National Assessment (ANA) results and the school
development plans shared by the principal of the school, improving learner literacy was
identified as one of the key areas of focus in the medium to long term plan of the school
(Field notes, 14 March 2013).
The school has two Grade 4 classes with 46 learners in each class. Both classes are taught by
the same teacher. The researcher spent four months prior to data collection in the context in
order to get a sense of how teaching and learning takes place routinely at the school. Through
this period of observation and engagement, the researcher was able to gain a richer
understanding of the culture of teaching and learning at the school. She was also able to get a
sense of challenges experienced at the school and the multitude of challenges the learners
experienced in their daily living. In addition to the researcher developing a deeper
relationship and familiarity with the teacher and her learners, the intention was to also work
closely with the teacher so that the Story-Based Learning Design could be co-constructed in a
way that encouraged teacher participation and input into the research process.
Four different methods of data collection were used:
Field notes from the role of the researcher as participant-observer;
Planning, implementing and reflecting on (with the teacher) a unit of study in science
using a Story-Based Learning Design;
Grade 4 learner verbal and written skills captured in a culminating “show-and-tell”
activity for the unit; and
A terminal interview with the teacher as a reflection on this experience and as a
mechanism for ascertaining her perspectives of the use of a Story-Based Learning
Design in this context.
7
A pilot study was conducted “to work out all the kinks in the research process,” (Lodico,
Spaulding & Voegtle, 2010, p. 27). The use of the pilot study also contributed to the validity
and reliability of test instruments. In this study, the researcher used a pilot study to evaluate
the research design and to address any problems that could arise in this context. From the
pilot study a few minor changes were made to the research instruments.
The lessons during the implementation of the Story-Based Learning Design unit, learner
verbal presentations in the culminating activity and the teacher interview were video-
recorded with participant and parent permission. The body of data were analysed to ascertain
qualitatively, the impact of a Story-Based Learning Design in a Grade 4 Natural Science
classroom.
1.6 Limitations
Due to the nature of this research study and the chosen research design, two limitations have
been identified within this study:
Grade 4 learners in one school taught by one teacher form the context and
participants for this study, hence, the findings cannot be generalised beyond the
context and population of the study; and
While the researcher was a participant-observer her own command of isiXhosa is
limited, hence language barriers and the nuances related to spoken language could
have been missed during observations, classroom interaction and interviews.
1.7 Definitions of Concepts
Traditional teaching – Refers to teacher-centred approaches to teaching and learning or direct
instruction. A transmission mode of teaching where learners are passive recipients and the
teacher is the expert.
Story – A structured, coherent retelling of an experience or a fictional account of an
experience. All stories can be considered as didactic in nature, in that they are intended to
8
teach or convey something to the listener (Schank & Berman, 2002, p. 288 cited in
Avraamidou & Osborne, 2009, p. 1687).
Narrative – The narrative is a way of organising information through expressions of a variety
of media into an understandable form that has the ability to guide the learner’s
comprehension (Avraamidou & Osborne, 2009, p. 1688).
Storytelling – “The act of using voice and body language to communicate a narrative directly
from one person to another,” (Strauss, 2006, p. 2)
Story-based Learning Design – Refers to the choice of an appropriate known story which is
used as an engagement tool and then referred to throughout the unit of study as a vehicle for
learning. In this study, the story was used in its original form, no adaptations were made.
Activities are designed with reference to the story and the learners were encouraged to
interact with the story in developing creative solutions and critical thought related to problem
solving.
1.8 Organisation of this Study
This study comprises five chapters with the first chapter introducing the study, providing the
rationale and an exposition of the main research question. It will provide an explication of the
key concepts as well as the research design that will be used for this research study.
The second chapter contextualises this study by reflecting on the current teaching methods
and their shortcomings and a number of learning theories that connect to the use of stories
from a socio-constructivist perspective. These perspectives are included as they collude to
form the theoretical underpinnings of this study (Story based learning and its related
concepts, and stories as a learning tool). In addition, a summary of the current research based
on Story-Based Learning Designs as reported in the literature is described, as well as the
effect which narratives has on learning. Research conducted in South Africa as well as
internationally has also been presented and analysed.
9
The third chapter provides a detailed account of the qualitative research design. It includes
the methods and procedures used for sampling, data collection and analysis of the collected
data. In addition, ethical considerations for the use of human beings as subjects are described.
The fourth chapter presents a detailed analysis of the findings. This chapter will provide the
evaluation of the extent to which Story-Based Learning stimulates learner talk and enhances
the learner’s use of the target vocabulary when describing scientific ideas. The chapter also
includes the evaluation of the teacher’s perspective of the use of a Story-Based Learning
Design in a grade 4 Science and Technology classroom. Data analysis, presentation,
interpretation and discussion of results linked to findings from the literature are also provided
where possible.
The fifth and final chapter offers a summary of the study. Pertinent conclusions and
recommendations derived from an analysis of the findings and areas for future research are
identified and discussed.
1.9 Conclusion
The use of stories in science classrooms has enormous potential if the purpose of learning is
not only to understand the concepts being taught but also that this understanding needs to be
stored in a clear memory network which enables the synthesis of further ideas (Yulianty &
Premadi, 2010, p. 174). Stories are essentially a vehicle through which experiences and
events are communicated amongst people. White (1981, p. 1 cited in Avraamidou &
Osborne, 2009, p. 1687) confirms that narratives are “a solution to the problem of conveying
knowing into telling – fashioning human experience into a form assimilable to structures of
meaning that are generally human rather than culture-specific.” A growing body of literature
related to Story-Based Learning in science classrooms is shared in the next chapter as their
findings contribute to the theoretical lenses that ground this study.
10
Chapter 2: Literature Review
“Science, by its own definition, doesn’t give us meaning. It just provides us with facts . . . Our lives gain meaning only when
we tell our story. What the various religious traditions have done over the millennia is to tell the universe's story.”
David Steindl-Rast (Straus, 2006, p. 2)
2.1 Introduction
Historically stories have been a way of collecting, carrying and passing on knowledge and
experience. Despite the capability of stories and narratives to create a platform in science
classrooms for learner involvement, they have not been widely used. Instead, the scientific
community has placed an emphasis on the generalisation of knowledge and logic
communicated through a language that consists of multi-semiotic codes, graphs, symbols and
diagrams (Murmann & Avraamidou, 2013, p. 2). Since, the aim of this study is to consider
the extent to which a Story-Based Learning Design can influence the verbal and written
descriptions of scientific concepts in the target vocabulary in a Grade 4 Science and
Technology classroom, the sections that follow focus on the theoretical and research
perspectives of stories as a vehicle for learning.
The chapter begins with theoretical considerations based on social-constructivist learning
theories before refining the focus to the use of stories and narratives as pedagogical tools for
learning. Finally, a particular focus on the use of a Story-Based Learning Design in science
education is explored.
2.2 Theoretical Considerations
Lev Vygotsky is credited with introducing the influence of social construction and the child’s
active contribution to his or her learning. He advocated the centrality of language in a child’s
cognitive development. Peregoy (2011, p. 3) explains that the Vygotskyian theory places
emphasis on the fact that learner’s gain their knowledge and are able to solve problems
through the process of interacting with their teachers, classmates and socio-cultural
environments. Opportunities to learn through discovery are a key component of a
constructivist approach to teaching and learning.
11
The socio-constructivist perspective significantly influenced the research of Jerome Bruner
who built on the Vygotskyian notion that all learning takes place in a historical, social and
cultural context. Bruner (1986, p. 59) advocated that learning can be seen as a communal
activity, where culture is shared. He also challenged the tendency of psychological research
to examine human mental functioning as if it existed in a cultural vacuum (Bruner 1996,
p. 126). Bruner (1986, p. 18) identified two modes of thought, namely, paradigmatic and
narrative which provides different ways of viewing reality. The paradigmatic mode is
associated with the thought processes that are logical, scientific and based on reasoning while
the narrative mode is sequential, action-oriented, detail driven and influenced by feelings and
emotions. Subsequent research from different disciplinary areas identify a narrative
understanding as a major cognitive tool, through which all human beings in all cultures make
sense of the world (Egan, 1986, p. 4). Bruner (1986, p. 19) identified the narrative as the
default mode of thinking, since in everyday life human beings organise their thoughts through
narrative signals, hence the potential of the narrative for learning exists.
Egan (2001, p. 66, 2005, p. 19 & 2007, p. 56) verified the views of Bruner (1996, p. 24) and
suggested that stories are a primary form of understanding. He stated that “we [human
beings] are a storying animal, we make sense of things commonly in story forms and that
ours is a largely story-shaped world,” (Egan, 2001, p. 67). In his critique of Piaget, Egan
(2001, p. 67) emphasises that he does not wish to replace the cognitive with the affective, the
rational with the imaginative, instead, they should be viewed as interdependent. He believes
imagination to be necessary and a neglected component of rational, cognitive activity (Egan,
2007, p. 58). For Egan (2007, p. 58), cognitive activity that lacks imagination and affective
components is desiccated and inadequate. In this regard, Egan (2005, p. 22) writes:
“We have allowed curricula and instruction aimed at producing measurable learning to suppress or depress that
imaginative activity. We have emphasised measurable ‘products’ over meaning, understanding, emotional
significance, and, generally, imagination.”
Egan (2005, p. 23) also explores the distinction made between reason and imagination in
education pointing out how they can be seen as discrete entities. This division is reflected in a
curriculum in which science and mathematics are commonly viewed as dealing with reason
and the arts with imagination. Egan (2007, p. 65) argues, against this position and calls for
educators to take the imagination seriously. However, to do so will entail having to question
current procedures of designing a curriculum, and challenge current methods of teaching and
12
assessment, which view education as a process of accumulating knowledge and skills
uninvolved with emotions, intentions, and human meaning (Egan, 2007, p. 69). It is not that
Egan does not value knowledge, but rather that he recognises that the development of
imagination depends on learners having knowledge. Egan (2007, p. 70) emphasises the
difference between knowing a lot and meaningful knowledge. This suggests the recognition
that there are a number of ways of knowing the world.
In education, knowledge is most often presented as secure, certain and unquestionable,
especially in the sciences. Egan (2005, p. 54) wants children to use their imaginations to
understand that there are different truths in the world that depend on historical, social and
cultural settings. Children need to develop the capacity to understand that other people are
unique, distinct and autonomous, with lives and fears that are as real and important as their
own. With such an attitude towards knowledge, Egan (2005, p. 86) maintains, “open-
mindedness and understanding of other views should be encouraged.” Egan (2001, p. 101)
also believes that the key strategy for developing the imagination is the narrative, because
any event or behaviour only becomes intelligible by finding its place in a story.
However, educators should not misconstrue Egan’s (2001, p. 67) emphasis on the affective as
it is not intended to displace the cognitive. It’s the focus of certain limited, logical,
intellectual activities to the detriment of children’s imaginative and affective development
that is being challenged. Children’s imaginations are more readily stimulated by content that
engages their emotions rather than content that does not. Egan (2005, p. 65) suggests that,
“the tool we have for dealing with knowledge and emotions together is the story. It is stories
that have the power to engage the emotional commitment of their hearers.” A human beings
manner of making sense of experience is profoundly mediated by emotions. How they feel
about and feel during the sequences of their daily lives is of central importance. In this
regard, Egan, (2005, p. 64) writes:
“…the affective connection is also the story connection. Whenever our emotions are involved, so too is
narrative, a story or fragment, that sets the context and the meaning. The role of the story is fundamental to our
sense-making, and in education where sense-making is of primary concern, it is still largely neglected.”
13
2.3 What’s in a Story?
Most people enjoy stories. It has the ability to hold one’s attention and as humans, we grow
up listening to stories, we tell our own stories and we use stories to communicate with one
another as well as to understand the world. Stories and legends have been used in many
cultures to capture oral and cultural wisdom. In addition, it is also a mechanism used to teach
ethics, values, and cultural norms and differences. Stories can also be defined as how one
uses voice and body language to communicate a narrative. It is further explained that
storytelling involves the process of telling a story (Strauss, 2006, p. 2). The storyteller uses
mental images in their heads and translates them into words, incorporating body actions to
assist in attracting the attention of the listener. According to Strauss (2006, p. 2) “storytelling
is an act of co-creation.”
Children find stories interesting as it connects to their imagination and to their world of
fantasy. Social environments like the home, school, play groups etc. enhance affective
learning by providing authentic social cues about how knowledge should be conveyed
(Bruner, 1986, p. 23). Hence, stories are a tool through which knowledge can be transferred
within a social or educational context. The objective of a story may vary from entertainment
to instruction. However, all stories share a similar experiential approach in that they capture
information (Andrews, Hull & Donahue, 2009, p. 7). They create a platform where learners
can be involved in what is taking place within the story as it provides learning and interaction
opportunities. According to Scrivener (2005, p. 20) this aims at involving the learners in what
is taking place, therefore the learners should be involved in the story and they should
participate in activities linked to the story. Murmann and Avraamidou (2013, p. 2) in their
paper Animals, Emperors, Senses: Exploring a Story-Based Learning Design in a Museum
Setting raise the question, “in what ways, if any, can stories be used to communicate
scientific concepts?” They further add that stories have the potential to be used in science
education as a tool to access the ideas, beliefs and values from non-Western cultures
including being able to provide a cross-cultural and diverse understanding of what happens in
the scientific world (Murmann & Avraamidou, 2013, p. 2).
Culture has been described as having an influence on the learning of science as a result of the
learner’s personal orientations, such as the sub-culture of the learner’s family, peers,
community, tribe, school and media including school (Stears, 2008, p. 133). It is well
14
documented that science is generally presented from a Western perspective to learners who
are from an African culture. Since, the socio-cultural background of the learners shapes the
way they view the world, this results in them having different views about science too. It is
precisely for this reason that Story-based Learning is appropriate for the South African
context where diversity in classrooms demands an inclusive approach to teaching and
learning. It is further explained (Stears, 2008, p. 133) that science should be treated as a
culture, especially a foreign culture that involves a language needing to be translated into the
informal language of the learners.
Atta-Alla (2012, p. 2) notes that using storytelling as a teaching strategy is neither new nor
unique as many teachers have used different types of stories for teaching, whether they are
actual stories or ones that that have been adapted or made up. Schank and Berman (2002
cited in Avraamidou and Osborne, 2009, p. 1687) have explained that stories not only have
the advantage of being richer and more compelling but also more memorable for the purpose
of memory and learning. Hiep (2007 cited in Atta-Alla, 2012, p. 4) states that the learners’
communicative skills (i.e. reading, writing, speaking and listening) are established through
their interaction with other learners on meaningful things. Stories in particular offer such a
platform where learners are able to practice reading, writing, speaking and listening in a
meaningful way. In addition, Atta-Alla (2012, p. 5) observes that storytelling has the ability
to emphasise a positive, collaborative and supportive learning atmosphere. Therefore, by
using storytelling it could support teaching as it emphasises a collaborative and learning
atmosphere.
Stories are a subset of the narrative genre and they describe a series of actions and
experiences made by a number of real or imaginary characters (Ricoeur, 1981 cited in
Avraamidou & Osborne, 2009, p. 1688). Schank and Berman (2002, p. 288 cited in
Avraamidou and Osborne, 2009, p. 1687) define a story as a “structured, coherent retelling of
an experience or a fictional account of that experience…and that in some sense, all can be
considered didactic in nature, in that they are intended to teach or convey something to the
listener.” So how, then, can stories be used in science education? How can the grammar of
science, reliant on distinctive genres and a highly normalised vocabulary adopt any features
of the narrative?
15
2.4 Narratives
Bruner (1996, p. 34) is credited with differentiating between the paradigmatic (organising
thought that is logico-scientific based on reason) and narrative (by creating stories) modes of
thought. The narrative refers to “a way of sculpturing and structuring information through
expressions of different media into readily understood forms that guide learner’s
comprehension to a cognitive mode that learners use to make sense out of information or
experience,” (Avraamidou & Osborne, 2009, p. 1688). As this study is concerned with
narrative realisations in text (in other words stories), it is important to explore various authors
who have conducted extensive functional analyses as this is relevant to our understanding of
the constituents of narratives and their functions.
Table 2.1 below summarises the analyses of four authors, namely, Chatman (1978), Toolman
(2001), Norris, Guilbert, Smith, Hakimelahi and Phillips (2005, p. 535) and Avraamidou and
Osborne (2009). An examination of the main features of Table 2.1 shows agreement in all
four analyses with regards to events, times and agency, but that there is disagreement with
other components. From this analysis the perspective of Avraamidou and Osborne (2009,
p. 1690) seems to focus on the necessary components of narrative that is of value to science
education. Their (Avraamidou & Osborne, 2009, p. 1690) analysis focuses on the
components of a story that has the possibility to ensure that the learners are able to link the
abstract with what is familiar to them. Hence, their analysis is used for the purposes of this
study.
Avraamidou and Osborne (2009, p. 1692) argue that that “the purpose of narratives is not just
to help us understand the human world, but also to understand the natural world...which is
populated by non-human agents.” Science is modelled on developing causal explanations of
the material world based on the action or agency of one object on another. While this is
generally associated with a person it is commonly projected onto objects giving them agency
even though the key feature of agency is intentionality. Agency is then inherent to all causal
action and not just to humans (Avraamidou & Osborne, 2009, p. 1693). Correlational
explanations, in contrast lack agency. Without a mechanism there can be no agency making it
impossible to construct a temporal history, which is an essential part of the causal and
narrative explanation. Hence, the distinguishing factor between narrative and expository text
is the absence or presence of a narrator – all that’s required is that the presence of a narrator
be inferred.
16
Table 2-1: Four perspectives on the main features of a Narrative
(Adapted from Avraamidou & Osborne, 2009, pp. 1689-1690)
Narrative Element Chatman (1978) Toolman (2001) Norris et al., (2005) Avraamidou & Osborne (2009)
Purpose
Helps to understand the natural world.
Helps to understand the natural and
human world. In the case of the natural
world, helps the reader invent new
entities, concepts and some picture of the scientist’s vision of the material
world.
Event A chain of events that make up the story. It’s the “plot” –
arrangements of incidences.
A perceived sequence of non-
randomly connected events.
A unified subject connected in
chronological order.
A chain or sequence of events that are
connected to each other.
Structure
Usually go somewhere or expected to go somewhere, with some sort of
development and even a resolution or conclusion provided.
Typically start with imbalances and end in success or failure. Structured
around the sequence of the plot in which events are related.
An identifiable structure (beginning, middle, end) where events are related
temporally.
Time
Independent dual times: story-time (past) and discourse time
(order of events might be different).
Narratives concern the past.
Narratives concern the past.
Narratives concern the past.
Agency
Account for events and recognise the existence of things
causing or being affected by those events.
Typically involving, as the
experiencing antagonist, humans or quasi-humans, or other sentient
beings.
Actors cause and experience events,
they involve human beings or other moral agents.
Actors or entities cause and experience
events. Actors may either be human or material entities who act on each other
Author
Author is the one who devised the story.
Narrator
The narrator may be overt (a real character or an intrusive outside party). Narrator should only mean someone – person
or presence – actually telling a story to the audience, no
matter how minimally he invokes his voice. There are non-narrated narratives which means that the existence of the
narrator is not a necessary component of the narrative.
There must be a teller and that teller no matter how much in the
background or invisible is always
important.
The agent relating a narrative determines the purpose of the story
and the sequence of events.
The teller who is either a real character or the reader must interpret or recognise
the text as a narrator Alternatively, a
sense of a narrator.
Reader
The audience must respond with an interpretation, they cannot avoid participating in the transaction.
The reader must interpret the text as narrative.
The reader must interpret or recognise the text as a narrator.
Narrative appetite
The reader must respond with an interpretation, they cannot avoid participating in the transaction.
The reader must want to know what will happen.
Discourse
The means by which a story is communicated.
17
2.4.1 The Effect of Narratives on Learning
Several philosophers, educators and researchers have confirmed that narratives are useful for
learning and for understanding the world we live in (Meyer, 1998, p. 467; Williams, 2000,
p. 59 & Norris et al., 2005, p. 536). Williams (2000, p. 59) in particular stated that narrative
text is easier to comprehend and remember than expository text (factual and informational
material). The structure of the narrative is organised around a sequential pattern of events and
at a deeper level the researcher concurs with Orgborn, Kress, Martins and McGillicuddy
(1996 cited in Avraamidou and Osborne, 2009, p. 1694), who state that we can think of a
story as a knowledge carrier.
Negrete (2003, p. 2) carried out a study to determine the effectiveness of a collection of short
stories on science content. His mixed methods study specifically looked at the efficiency of
narrative texts compared to factual ones in communicating science and which of the two
enables better memory retention. Empirical data confirms that narrative information was
retained for longer periods than factual information in the long-term memory. What is of
specific value from Negrete’s study (2003, pp. 1-17) is that individuals in the narrative group
were more likely to remember scientific information when that was central to the
development of the story. His study also found that individuals in the narrative group “quoted
verbatim literary phrases, analogies, metaphors and irony when retelling the story,” (Negrete,
2003, p. 8). This suggests that human beings retain information when it is presented to them
in an attractive and engaging way. Norris et al., (2005, p. 356) confirms that the “narrative
effect enhances memory, interest and understanding.” Meyer (1998, p. 467) in addition used
storytelling as a way into students’ personal experiences with particular phenomena and the
sharing of stories as a way to “trespass within the science discourse, which was effective in
engaging female students.”
Conle (2003, pp. 3-15) explores various narrative practices and she highlights different forms
of engagement that narratives prompt, including, experiential teaching stories and journal
writing and she also argues that such narrative practices have the potential to produce five
outcomes:
18
Advances in understanding (e.g. productive meaning making as a result of narrative
encounters);
Increased interpretive competence (e.g. competence in finding multiple
representations of a particular phenomenon or event);
Richer practice repertoires (e.g. narrative repertoires that become part of one’s
personal practical knowledge);
Changes in life (e.g. autobiographical narratives cause change in people’s lives); and
Visions gained (e.g. moral modelling agendas).
Wang and Marsh (2002, p. 60) conclude that narratives could be used to humanise education
by taking note of the human elements of science. Hence, through stories teachers can provide
a more contextualised and personalised access to scientific knowledge, instead of the abstract
knowledge that is often presented in the science textbooks. As the learners imaginations are
triggered, they are activated in their mind which is not only an analytical, context-free,
information-processing unit, it also identifies and organises mental life by connecting similar
structures, events, or contexts into a meaningful picture (Andrews et al., 2009, p. 13).
Through experience with such stimuli, the mind is able to sense and apply information about
patterns of events and effects that exists in the world.
2.4.2 The Pedagogical Function of the Narrative
A narrative-based pedagogy is in conjunction with ideas drawn from second-generation
cognitive science (Klein, 2006, pp. 143-178) which considers knowledge as “perpetually-
based, fuzzy and contextual while language is thought to be largely metaphorical and
narrative.” Mott, Callaway, Zettlemoyer, Lee and Lester (1996 cited in Avraamidou &
Osborne, 2009, p. 1701) go further in suggesting that the narrative could well form the basis
for the entire curricula and propose the design of narrative-centred learning environments that
will enable learner participation, co-construction, exploration and reflection. Through such
activities and within the context of a narrative-centred learning environment, constructivist
learning is promoted.
19
A classroom study relevant to the South African context is one that was conducted by Gilbert,
Hipkins and Cooper (2005, p. 2) who described that, the use of stories makes science more
inclusive for Maori students who found science inaccessible and alien. They further describe
that the limitations of the study could be that some children may find it hard to imagine
themselves in the story but conclude that narratives have a place in science education and
could be used “as a bridge between narrative thinking and the logico-scientific mode of
thinking,” (Gilbert et al., 2005, p. 13).
Based on the findings that have been highlighted throughout this chapter thus far, in can be
inferred that narratives can be useful, not only as a pedagogical tool for teachers but also for
children as a means for communicating their understandings of science. Bostrom (2006,
p. 35) for example examined teachers’ and students’ narratives in making chemistry more
meaningful. Analysis of the data suggests that both teachers and students used narratives
from their own lived experiences such as personal anecdotes and historical stories. In
addition, the content of narrative analysis showed that it made chemistry in class pluralistic in
allowing lived experiences of both teachers and students to interact with scientific facts,
confirming the role of narratives as an instructional tool (Bostrom, 2006, p. 156). More
advanced pedagogical roles of narratives has been attempted by developing and using
narrative virtual environments involving information technology. Mott and Lester (2006,
p. 4) for example created and used a virtual inquiry-based learning environment for middle
school children called CRYSTAL ISLAND. In this world children build hypothesis, test
through data collection and analysis before making conclusions.
While the use of technology is beyond the current reality in most South African schools
where infrastructure and access is limited, it is still important to include the potential of
narratives for futuristic educational environments. Scripted inquiry learning (Conole,
Scanlon, Kerawalla & Mullholland, 2011, pp. 1-8) for example, developed as part of Personal
Inquiry (PI) uses specially constructed scripts which, like dynamic lesson plans, guide
children through a process of investigation across formal (in the classroom) and informal
(outside of school, in discovery centres or at home) learning settings. Building on the work of
Dillenbourg (2004, p. 17) and Dillenbourg and Tchounikine (2007, p. 172) this approach sees
pedagogy and technology as intimately linked. In this work, teachers and learners are part of
design workshops and prototype together with educational experts, software designers,
curriculum developers, curators of informal learning and discovery centres.
20
2.5 Conclusion
Human beings are predisposed to organise experiences into a narrative form (Egan, 2005,
p. 65 & 2007, p. 109). Stories and narratives offer a platform for such learning to take place
while at the same time they facilitate an interactive learning environment that does not
require too many resources. This is an important consideration within the South African
context. The narrative is considered to be central to meaning-making as it builds awareness,
interest, involvement, understanding, curiosity and creativity. In addition, it not only enables
a comprehension of concepts being taught, but also enables storage in a clear memory
network that facilitates the integration of ideas. The use of stories as a learning tool could
have huge potential as it could act as both a stimulus to learning science content, but also as a
means of enabling language learning amongst second language English learners. Therefore,
the use of Story-Based Learning should be explored within a science and technology
classroom in order to determine if these benefits can be obtained.
Since, the focus of this study is to determine the extent to which a Story-Based Learning
Design can influence verbal and written descriptions of scientific concepts amongst learners
in a Grade 4 Science and Technology classroom, the next chapter describes the research
design used for the purposes of this study.
21
Chapter 3: Research Methodology
3.1 Introduction
Research can be defined as a systematic process of collecting and logically analysing
information for a purpose. Research methods on the other hand, refer to a range of
approaches used in research to gather data (Cohen, Manion & Morrison, 2007, p. 47). Since
the aim of this study is to determine the extent to which a Story-Based Learning Design can
influence verbal and written descriptions of scientific concepts amongst learners in a Grade 4
Science and Technology classroom, a qualitative case study research design was deemed
appropriate.
This chapter provides an overview of the qualitative case study research design, ethical
considerations, data collection methods, the effect of the pilot study and the data analysis
processes adopted within this study.
3.2 A Qualitative Case Study Research Design
Bogdan and Biklen (2003, p. 49) describes the research design as “the researcher’s plan of
how to proceed within a study.” They further explain that the researcher’s plan evolves as
more is learnt about the “setting, subjects and other sources of data through direct
examination,” (Bogdan & Biklen, 2003, p. 49). There are two paradigms that determine the
research design of a study and the chosen paradigm determines the research methods and
research techniques (De Vos, 2001, p. 242) that will be used within the study.
A qualitative case study research design was considered appropriate because qualitative
research is a, “naturalistic inquiry,” (McMillan & Schumacher, 2005, p. 13). It uses non-
interfering data collection strategies to discover the natural flow of events and processes and
how participants interpret them. Qualitative researchers collect data by interacting with
selected persons in their settings and by obtaining relevant documentation (De Vos, 2001,
p. 210). It describes people’s individual and collective social actions, beliefs, thoughts and
perceptions.
22
Qualitative research uses a case study design, “meaning that the data analysis focuses on the
one context which the researcher selects to understand in depth,” (McMillan & Schumacher,
1993, p. 375). Case studies are appropriate for exploratory and discovery-oriented research.
They provide a detailed description and analysis of processes or themes voiced by
participants in a particular situation. According to Lichtman (2010, p. 81), when using a case
study research method, “a single entity is identified within the scope of the study. This entity
can consist of one individual or an entire school.” The emphasis of a case study is a complete
description and understanding of the constructs being studied (Struwig & Stead, 2001, p. 8).
The qualitative case study is adopted within an interpretivist paradigm. McFarlane (2000,
p. 27) states that the interpretive paradigm is composed of many research traditions which
originate from various fields of study with the same purpose. It enables the researcher to
interpret social situations by becoming a part of the situation through immersion or building a
relationship with the people that are involved in that particular situation. In so doing, the
researcher is able to listen and share in the people’s experiences and perspectives. Neuman
(2003, p. 61) shares this view by affirming that “the interpretive theorist attempts to discover
the meaning of an event or practice by placing it within a specific social context.” As a
qualitative researcher, the interaction with the participants needs to be done in a “natural,
unobtrusive and non-threatening manner,” (Bogdan & Biklen, 2003, p. 35).
Qualitative researchers study human action from the perspectives of the social actors
themselves. Therefore, the primary goal of qualitative research is to describe and understand
rather than to just explain human behaviour (Babbie & Mouton, 2001, p. 270). Five features
make a qualitative research design appropriate for the purpose of this study.
23
3.2.1 Features of a Qualitative Research Design
In order to provide a context for the choice of a qualitative design for the purposes of this
study each feature is described briefly below:
3.2.1.1 Assumptions about the World
Cherry (2000, p. 49) explains that qualitative research is grounded in the phenomenological
research traditions. With the qualitative research design, the data consists of explanations in
the form of rich verbal descriptions. Qualitative research has been described as anecdotal
because the findings include quotations and it describes a situation or view of the world in
narrative form (Suliman, 2000, p. 184). This feature is relevant as the participants were able
to share about the structures that they had made which contributed to the findings of this
study.
3.2.1.2 Goals
The goal of qualitative research is to acknowledge the participants of the study and to be able
to reflect their voices. Parallel to this goal is the recognition that the researcher works
intimately with what is studied and who is part of the study and the interpretations that are
made. Qualitative research celebrates those that are involved in the study (Lichtman, 2010,
p. 209). The goal of this study is to analyse the extent to which Story-Based Learning has
stimulated verbal and written descriptions with the use of target vocabulary. Therefore, the
researcher was intimately involved with the participants including the teacher.
3.2.1.3 Multi-method Strategies
The researchers study the participant’s perceptions with interactive strategies such as
observations and interviews and non-interactive strategies which include the use of
documents (Adam, 2003, p. 66). Pole and Lampard (2002, p. 12) have explained that research
strategies are flexible, responsive and on-going. The researcher refrains from being the expert
as the participants are the experts and the interaction with the participants creates an evolving
design. In this study the researcher is not the expert and takes on the role as a participant
24
observer. This in turn enables the researcher to gain an understanding of the participant’s
perceptions.
3.2.1.4 Researcher Role
In qualitative research the researcher plays an important role. Once the data has been
collected, information gathered, settings are viewed and the realities have been constructed
through his or her eyes, the qualitative researcher has the responsibility to analyse the data
(Lichtman, 2010, p. 65). Qualitative researchers immerse themselves in the context, whether
past or present. According to Lodico, Spaulding and Voegtle (2010, p. 161) the researcher
assumes the role of an interpreter with regard to the analysis and the writing of the report as
well as being able to describe the social, cultural and historical context of the study.
Therefore, the researcher has to be familiar with the problem, the issues and the procedures.
This explains why the researcher spent time in the context, so as to provide a detailed
description of the context of the study. By spending time in the context the researcher was
able to gain an understanding of the problems, issues and the procedures of the school.
3.2.1.5 Context Sensitivity
According to Grix (2004, p. 32) qualitative research describes the subjective experiences
from the perspectives of the individuals being studied. In this study, the researcher co-
constructed the unit of study with the teacher, ascertained the possible influence of a Story-
Based Learning Design when learners presented their final products [both verbally and in
writing] and then interviewed the teacher to ascertain her perspectives and experiences.
3.3 Context
The school chosen for the purposes of study is a township school called KN Primary School
(pseudonym). It is a third quintile primary school in the Uitenhage District of Port Elizabeth.
The school is situated within a disadvantaged community where poverty, unemployment,
HIV/AIDS and other societal ills plague the community. Most learners live in Reconstruction
and Development Programme (RDP) houses or in informal houses (shacks). KN Primary is a
No-Fee school, fully subsidised by the Department of Education with a feeding scheme.
25
The school started initially under a tree, later the prefabricated (prefab) buildings were added
and there are hopes that some-day the school will be housed in brick buildings. KN Primary
School started with effort by the community, hence parents and community members
continue to be involved in the functioning of the school on a daily basis. Parents play a strong
role within this school and the principal ensures their involvement in all school decisions. In
fact he claims that “the parents and this community are a strength of this school. Without
their support we would find it very difficult,” (Field-Notes, March 2013). Table 3.1 provides
a brief overview of the context.
Table 3-1: Brief Overview of KN Primary School
Item Description
No. of Learners 798
No. of Teachers 20
Grades R-7
No. of Grade 4 Learners 92 [2 classes of 46 learners taught by one teacher]
Learners Race 100% Black isiXhosa mother tongue
Teacher Race 100% Black isiXhosa mother tongue
Feeding Scheme Yes
School Projects Manyano Network, Soul Budyz, UDDI, Literacy
projects and Life Support Programmes.
Challenges Poor infra-structure, resources, learner’s coming from
poor backgrounds, teacher absenteeism, HIV/AIDS,
poor literacy and numeracy, illiterate parents etc.
As evident from Table 3.1, KN Primary School has teachers and learners that are isiXhosa
mother tongue speakers. English is a second language for all staff members and learners. This
context was deemed appropriate for this study as the purpose of implementing a Story-Based
Learning Design was to stimulate learners into learning science as well as to address
language barriers since the Language of Learning and Teaching (LoLT) in this school is
English.
After obtaining permission from the Department of Education and the Principal of KN
Primary School, the Grade 4 Natural Science teacher Ms. Joli (pseudonym) who taught both
Grade 4 classes at the school was approached and provided a brief overview of the intended
research. Ms. Joli agreed to participate and provided the researcher with initial background
information about the school, her plans for teaching and the learners in the school. She was
also supportive of the participant-observer role the researcher wished to adopt and was keen
26
to co-construct the unit of study with the researcher. In essence, Ms. Joli was a key resource
to the research process as she modelled the kind of teaching that was happening at the school,
provided a sound board for the researcher’s questions and she participated at every stage of
planning, preparing, piloting and implementing the science unit to be taught as part of this
study. Throughout the research journey Ms. Joli provided sound ideas and thought-provoking
critique. She was also prepared to leave her comfort zone on a few occasions.
3.4 Research Methods
This study took place in an educational setting therefore, the researcher obtained permission
from the Eastern Cape Department of Education before conducting this research. The
researcher had to also act in accordance with the rules and regulations concerning research in
public schools as set out by the Department of Education. The principal and teacher of the
chosen school were approached to obtain permission to conduct the study. Permission from
the school principal and ethical clearance was obtained before data collection could begin.
3.4.1 Ethical considerations
A requirement for qualitative researchers is that they have to be sensitive toward the ethical
principles with regard to the research topic, face-to-face interactive data collection, an
emergent design and reciprocity with participants (McMillan & Schumacher, 1993, p. 397
cited in Adam, 2003, p. 70). Lapan, Quartaroli and Riemer (2012, p. 63) have stated that
qualitative and social researchers are faced with complex ethical issues as their research is
involved with the personal interaction with the individuals and the communities involved
with the study. Researchers are required to adhere to a code of ethics. A code of ethics was
compiled for the purpose of this study and an application to the Nelson Mandela Metropolitan
University, for ethics approval was made (Appendix A). The aspects which contributed to the
code of ethics for the purpose of this study are described below:
3.4.1.1 Informed Consent
Mertens (2012, p. 35) explains that research that involves the use of children has its own
challenges. Researchers have to obtain consent from the children’s parents. It is further
27
explained that children can provide the researcher with assent, which indicates that they
understand and agree to participate in the research study. Both, the parents and the learners
were consulted and the teacher also provided consent to participate in this study.
3.4.1.2 Confidentiality and Anonymity
Researchers are expected to promise confidentiality to their participants, and also assure that
the data will be reported in a way that the identity of participants is protected (Mertens, 2012,
p. 36). Piper and Simons (2005, p. 57) state that confidentiality is of vital importance as it
allows the participants to talk in confidence and allows them the right to refuse the
publication of any information that may harm them. They further explain that anonymity
offers a form of protection (Piper & Simons, 2005, p. 57). With children being involved in
this study their confidentiality and anonymity was ensured by using appropriate pseudonyms.
3.4.1.3 Deception and Privacy
Deception is defined as misleading the participants in such a way that had they been informed
of the actual purpose of the study, they would have declined their participation (Struwig &
Stead, 2001, p. 69). Researchers need to be aware of privacy, such that no identifying
information about the participant should be revealed in any form (Lichtman, 2010, p. 54). In
this study, the participants were made aware of the purpose of the research and a letter of
information was given to the parents with the consent and assent forms. The names and any
other factors that could identify the participants will be omitted from this study and
pseudonyms are used.
3.4.1.4 Harm, Caring and Fairness
Participants have the expectation that they will not be involved in any situation in which they
might be harmed within the study (Lichtman, 2010, p. 54). It is noted that with any study
there is the potential for the participants to be harmed, but it is hoped that the information
provided in the information session would neutralise most obvious problems. An information
session was held with the parents in isiXhosa so that they would have a better understanding
about the research study and the use of the learners within the study. This measure was
considered so that the participants would feel confident to share information.
28
3.4.1.5 Participant’s Right to Decline
Each participant was informed of their right to decline their participation in the study. Their
decision to do so would be respected at any time and for any reason. The parents of the
learners were informed of this right in the consent forms. No conflicts of interest were
identified.
With these ethical measures in place, it was hoped that the participants would feel
comfortable to openly share their experiences and perspectives with regard to the Story-
Based unit within a culminating activity capturing both verbal and written responses. The
participants accepted the researcher’s involvement within the context of the research setting
with the knowledge that the information shared with the researcher would be utilised within
the ethical parameters provided above.
3.4.2 Approaches to verification and standards of quality
According to Creswell (2003, p. 194), verification and standards imposed throughout the data
collection, analysis and report writing process of a study. There are multiple views of
verification in qualitative research, however, for the purposes of this study, Guba’s model of
trustworthiness was chosen. This model is based on the identification of four aspects, namely,
truth value, applicability, consistency and neutrality. Truth value considers whether the
researchers have established confidence in the findings of subjects or informants and the
context within which the study is undertaken. Applicability refers to the degree with which
findings can be applied to other contexts and settings or with other groups. Consistency
alludes to the reproducibility of findings if the inquiry is replicated with the same subjects in
a similar context and neutrality refers to freedom from bias in the research procedures and
results.
This model of trustworthiness was used to develop strategies that would introduce standards
of quality into this study. Strategies exist in order to build trustworthiness. The following
table describes these strategies and also highlights how the researcher has applied these
strategies in order to gain trustworthiness from all participating parties. The strategies
implemented were credibility, transferability, dependability and conformability (Table 3.2).
29
Table 3-2: Summary of Strategies used for Trustworthiness
Strategy Criteria Application
Credibility - Prolonged and varied field
experience
- Reflexivity
- Triangulation
- Member Checking
- Participant Review
- Peer Examination
- Four months spent in the field prior to
data collection.
- Field journal kept throughout research
process
- Data collection, field notes and
literature used though out duration of
study.
- Teacher conducted terminal checks of
all transcribed data
- Supervisor assisted as peer examiner.
Transferability - Sampling
- Sample comparison
- Dense description
- Purposive sampling conducted
- Overall population were 46 Grade 4
learners in one context;
- Complete method description
provided.
Dependability - Dependability Audit
- Methodology triangulation
- Peer examination
- Evaluation
- Story-Based Learning design co-
constructed with teacher;
- Research method fully described;
- Supervisor input in consensus
discussions
Conformability - Audit
- Triangulation
- Reflexivity
- Supervisor reviewed the synthesis of
data;
- As discussed above
- As discussed above
3.5 Data Collection Strategies
Four different instruments were used to collect data for this study over a period of six
months. The table below describes all the instruments that were used in this study, as well as
their purpose and how they were used up to the outcome it has provided. A brief overview of
the instruments used is provided in Table 3.3:
30
Table 3-3: Data Instruments used in this study
Instrument Purpose Outcome
Unstructured Observations
[field notes]
Provided a sense of how teaching
and learning takes place at the
school. Focused on the
communication of scientific ideas
and the use of any strategy to
support language in the science
classroom.
Base-line data and pre-research
information on how learning takes
place at the school.
Debriefing Sessions
[field notes]
At the end of each week Ms. Joli
and the researcher had a debrief
session on the observations and
discuss plans for the following
week. The researcher could ask
any questions for clarity or for
providing context to an
observation. During the debrief
session Ms. Joli also confirmed the
observations made.
Support base-line data and provide
researcher with additional
information as required.
Implementation of the Story—
Based Learning Design
[results of learner talk during the
show-and-tell and learner writing
based on descriptions of their
structures]
Planning, piloting and
implementing a Story-Based
Learning Design as a strategy to
stimulate learner attention and
interest in learning science, to
enhance comprehension of target
vocabulary and to be used as a
language support for second
language learners.
Intervention to ascertain if stories
could be used as a vehicle for
learning in a science classroom
and for ascertaining any influence
on learner verbal and written
communication skills.
Semi-Structured Teacher Interview
[transcripts of the interview]
An exit interview with the teacher
in order to capture her perspectives
and experiences of the intervention
strategy and as a confirmation of
the results obtained after
implementation data were
analysed.
To obtain teacher perspectives of
the use of a Story-based Learning
Design.
3.5.1 Unstructured Observations and Debrief Notes
Observation is a complex research method because it often requires the researcher to play a
number of roles and to use a number of techniques; including his/her five senses, to collect
data (Baker, 2006, p. 172). Gorman and Clayton (2005, p. 40) define observation studies as
those that “involve the systematic recording of observable phenomena or behaviour in a
natural setting.” Johnson and Christensen (2008 cited in Lichtman, 2010, p. 164), further
comment that the purpose of classroom observation is to be able to observe the educator in
their natural settings. Gold (1958 cited in Baker, 2006, p. 174) expanded on the typology of
four roles researchers can play, but the adopted role depends on “the problem to be studied
and the willingness to be studied and on the researcher’s prior knowledge of or involvement
with the insider’s world.” Going into a new environment may require the researcher to adopt
31
the role of complete observer, whereas studying a group in which he/she is already a member
allows the researcher to adopt the complete participant role. What is important is that the
researcher assumes an appropriate, fluid role - one that allows him/her to intimately observe
the everyday life of the insiders (Carey, McKechnie & McKenzie, 2001, p. 219).
Marshall and Rossman (1989, p. 79) define observation as "the systematic description of
events, behaviours, and artifacts in the social setting chosen for study." Observations enable
the researcher to describe existing situations using the five senses, providing a "written
photograph" of the situation under study (Erlandson, Harris, Skipper & Allen, 1993, p. 18).
De Munck and Sobo (1998, p. 56) describe participant observation as the primary method
used by anthropologists doing fieldwork. Fieldwork involves "active looking, improving
memory, informal interviewing, writing detailed field notes, and perhaps most importantly,
patience" (DeWalt & DeWalt, 2002, p.vii). Participant observation is the process enabling
researchers to learn about the activities of the people under study in the natural setting
through observing and participating in those activities. It provides the context for
development of sampling guidelines and interview guides (DeWalt & DeWalt, 2002, p. iii).
Schensul, Schensul and LeCompte (1999, p. 91) define participant observation as "the
process of learning through exposure to or involvement in the day-to-day or routine activities
of participants in the researcher setting."
Bernard (1994, p. 122) adds that participant observation as the process of “establishing
rapport within a community and learning to act in such a way as to blend into the community
so that its members will act naturally, then removing oneself from the setting or community
to immerse oneself in the data to understand what is going on and be able to write about it.”
He advised more than just observation in the process of being a participant observer, namely
observation, natural conversations, interviews of various sorts, checklists, questionnaires, and
unobtrusive methods. Participant observation is characterised by such actions as having an
open, nonjudgmental attitude, being interested in learning more about others, being aware of
the propensity for feeling culture shock and for making mistakes, the majority of which can
be overcome, being a careful observer and a good listener, and being open to the unexpected
in what is learned (DeWalt & DeWalt, 1998, p. 3).
As part of understanding the context, an immersion into the environment was possible for the
researcher in the role of participant-observer. The researcher wanted to familiarise herself
32
with the teachers, learners and wider school community. While the data obtained from this
participant-observer role would serve as base-line data for this study in terms of how teaching
and learning takes place regularly in this study, it was also true that this role enabled the
teacher, learners and the school to have a sense of ownership of the results obtained,
providing much value to the research as a tool for change. In addition, Ms. Joli participated in
planning, piloting and implementing the Story-Based Learning Design. This co-construction
of the learning strategy with the teacher is considered to be a major strength in the research
design of this study.
3.5.2 Planning, piloting and implementing a Story-Based Learning Design
In consultation with Ms. Joli a Story-Based Learning Design on the Natural Science Unit
Structures (see Appendices B, C & D) was planned, piloted and implemented in both Grade 4
classes. The lessons that were planned encapsulated the findings which literature in Chapter 2
has presented, as beneficial to add to a Story-based lesson.
Vygotskyian theory emphasised that learner’s gain their knowledge and are able to solve
problems through the process of interacting with their teachers, classmates and socio-cultural
environments. Therefore, the lessons have been structured in a way that enabled the learners
to interact with the teacher and their fellow classmates.
Williams (2000, p.59) stated that the narrative text is easier to comprehend and remember
than expository text, therefore, narrative text was used to a great extent and expository text
was avoided where possible in order to allow learners to comprehend and remember the
lessons more easily.
Literature has also highlighted that human beings are able to retain information when it is
presented in an attractive and engaging way. Norris et al., (2005, p.356) confirms that the
“narrative effect enhances memory, interest and understanding”. Therefore, the lesson made
use of big colourful picture cards of different scenes from the story, Ms. Joli also changed her
voice to put on the pig and wolf voices, the learners were seated in front of the class and not
in their desks and the learners took part in the story where they became the chorus by helping
the wolf with the huff and puff when he blew at the houses. This enabled the lesson to be
more attractive to the learners, making it easier to remember and understand.
33
Literature in Chapter 2 also stated that “children’s imaginations are more readily stimulated
by content that engages their emotions rather than content that does not” (Egan, 2005 p.65).
Therefore, the story of The Three Little Pigs was used as the learners could relate to it based
on their background and their environments. This could possibly have allowed them to
remember the content more easily.
Observation of learners’ participation, any changes in attitudes, skills, perspectives and
language use [verbal and written] was noted. In addition, the culminating activity of this unit
required the learners to make a product (a structure in this case) and then to write a few
sentences about their structure before presenting it to the class (this activity enabled the
observation of all literacy skills).
A pilot study was used to help the researcher ascertain the process of data collection and to
work out any problems with the research instruments. The pilot study was conducted with
one of the Grade 4 classes. Through the pilot study a number of problems with the research
process and instruments were identified. In addition, the pilot study provided Ms. Joli with
experiential knowledge of the process. This was an important part of the research process as
Ms. Joli was empowered to leave her comfort zone on a few occasions in the real research
process. The following changes are worth noting:
The first lesson in the unit required the teacher to take learners on a walk within a
short perimeter outside the school fences. In the pilot study Ms. Joli suggested that the
activity take place within the school premises and that the learners simply looked
outside. After the debrief session she was willing to try the walk as she could see that
it would benefit the research process;
In the pilot study, the “show-and-tell” activity was not used. Instead, learners were
removed from the classroom to share their perspectives. This intimidated the learners
as they were out of their class context and in a space located close to the principal’s
office. The activity was therefore, introduced instead of separating this process from
the classroom activity; and
Other minor changes were made in the lesson plans and the sequence of activities
based on the pilot study.
34
Overall, the pilot study was very informative as it enabled a number of issues to be dealt with
by minor changes being made to the research instruments before implementation.
3.5.3 Semi-structured Exit Interview
A final exit interview (Appendix E) with Ms. Joli was done at the end of the unit to obtain her
perspectives of the Story-Based Learning Design implemented. An interview is a
“conversation with a purpose” that is conducted with one person or a group of persons
(Chambliss & Schutt, 2003, p. 177 cited in Lodico, et al., 2010, p. 119). A major advantage
of interviews is that they are flexible to a large extent. Most interviewers construct their
questions prior to the interviews, there is, however, ample opportunity to ask for clarification
of answers or to ask additional questions (Lodico et al., 2010, p. 122).
For the purpose of this study semi-structured interviews were used. This type of interview
involves a general set of questions and format that will be used with the participant.
However, the interviewer can vary the questions as the situation requires (Lichtman, 2010,
p. 141). Nieuwenhuis (2007, p. 87) shares this view in that semi-structured interviews
requires the participant to answer a set of questions but it also allows the researcher to clarify
answers as well as probe the participants. The semi-structured interview with Ms. Joli was
facilitated by a translator as the researcher wanted her to be comfortable with answering the
questions posed. During the interview process Ms. Joli code-switched when required but
overall provided in-depth responses to the questions posed.
3.6 Data Analysis
Qualitative research produces rich data from a variety of sources. According to Marshall and
Rossman (2006, p. 56) and Creswell (2007, p. 78) data analysis in a qualitative research
study, should be obtained using multiple levels of abstraction. The analysis should move
from the specific to the general by considering the multiple themes and alternative
explanations. For the purposes of this study a summary of how data analysis proceeded is
described in Table 3.4 below.
35
Table 3-4: Data Analysis Processes
Instrument Data Analysis Process
Field Notes General overview, then themed
Implementation of the Story-Based Learning Design Learner show-and-tell video recorded and transcribed.
Learner written paragraphs analysed. Connections
made to science concepts generally and to target
vocabulary in particular.
Teacher Interview Video-recorded and transcribed. Insights into benefits
and challenges of a Story-Based Learning Design
extracted.
Further descriptions of the process as highlighted in Table 3.3 are expanded on below:
Field notes made generally, during the observation and debrief sessions and the planning,
piloting and implementation of the Story-Based Learning Design unit were reviewed as part
of data analysis. In addition, all lessons implemented in the pilot and final research process
were video-recorded. First the notes and video footage were reviewed generally; later specific
sections of notes were themed as:
- Base-line data [general aspects of teaching and learning in the school];
- Teacher response to the Story-Based Learning Design;
- Learner response to the Story-Based Learning Design;
- Learner communication skills [verbal and written] and use of target
vocabulary;
- Learner perspectives; and then
- Teacher perspectives.
Verbatim learner descriptions of the structure they made [show-and-tell activity] from the
video-footage and the paragraph they wrote describing their structure was used as the primary
data source when analysing the possible influence of a Story-Based Learning Design on
learner communication. The general descriptions provided some insight, but the frequency of
target vocabulary used was ascertained in order to provide a measure of the impact of the
Story-Based Learning Design.
The teacher exit interview (which also included some questions that required reflection) was
used as additional data to ascertain teacher experience and perspectives of the use of a Story-
Based Learning Design in terms of the benefits and the challenges this design imposed on
36
teachers. In addition, the teacher provided insights on how feasible the use of the method
would be in schools that were under-resourced. The interview was video-recorded and
transcribed. Her insights related to her general experience of the process, reflections as well
as any challenges and benefits of a Story-Based Learning Design was extracted.
3.7 Conclusion
This chapter focused on a description of the research design of this study. It described the
theoretical purpose and justification of the methodology chosen, the ethical considerations,
the data gathering techniques, the pilot study and an explanation of the data analysis method
that was used. Based on the design described in this chapter, the next chapter focuses on the
presentation of an analysis of the findings of this study. It provides a discussion of the data
obtained and interprets the findings in relation to the literature and the research aim and
objectives of this study.
37
Chapter 4: Analysis of Findings
“Imagination is more important than knowledge. For knowledge is limited while imagination embraces the
whole world.”
(Sir Albert Einstein)
4.1 Introduction
Children’s natural curiosity is the most natural way to enhance language (Picarello, 2000,
p. 47). Science experiences can provide an opportunity to develop literacy in reading, writing
and communication. Rice, Dudley and Williams (2001, p. 18) encourage the utilisation of
text-books in the teaching of science. Big books, novels, storybooks, poetry, pop-up, inquiry,
informational, and discovery and exploration books are all available to support science
teaching. Lake’s (2000, p. 88) perspective may be summed in her statement, “Science cannot
occur in a vacuum. Concepts are better understood when presented in meaningful text and
combined with hands-on experiences.” Hence, the aim of this study is to consider how a
Story-Based Learning Design can influence verbal and written communication of scientific
concepts using target vocabulary in a Grade 4 Science and Technology classroom supports
the views expressed above.
This chapter provides a synopsis of the results obtained and an analysis of the findings in
relation to the aims and objectives of this study. The context is described first, then pre-
research observations which could be viewed as the base-line data, the result of the
implementation of a Story-Based Learning Design and teacher perspectives of the design is
presented.
4.2 Context
KN Primary School is a quintile three primary school in the Uitenhage district in the Eastern
Cape. It has a feeding scheme and children who attend the school come from poverty stricken
low socioeconomic families. In thinking back on her experiences at KN Primary School, the
researcher is reminded of a report entitled Building Education Beyond Crisis by Graeme
Bloch (2009, p. 2-3) in which he wrote:
38
“A number of commentators use the word “crisis” in reference to the state of schooling and education in South
Africa, and some recent reports calling the situation “beyond crisis.” It can be said that in terms of a number of
key indicators, the education system is failing to make the grade. This finds expression in relatively poor
outcomes with basic reading, maths and science literacy results, being consistently amongst the world‘s worst,
including much of Africa (Bloch, 2009). Recent Annual National Assessment (ANA, 2012) results showed that
only 20% of Grade 6 learners could do maths at the appropriate grade levels (average score 27%) and only 40%
in language of instruction (average score 38%). But more alarming are the disparities amongst schools where
children in Model C (ex-white) schools produce appropriate scores at 6th grade level, while ex-DET (black)
schools was only 0,1%. Surveys talk about an overwhelming sense of sadness amongst the young unemployed,
and circles of doom that reinforce their marginalization and lack of hope. Where students should expect
opportunities and assistance, they find their hopes and dreams crumbling before their eyes, and face obstacles
rather than ladders to progress and self-esteem.”
As explained previously, KN Primary School is a township school with 789 learners and 20
teachers all of whom are isiXhosa mother tongue speakers for whom English is a second
language (see Table 3.2). As this was not a context the researcher was familiar with, she
spent four months prior to conducting the study as a participant-observer immersed in the
environment so that she could see how teaching and learning regularly takes place at the
school. She also wanted to familiarise herself with the teachers, learners and wider school
community. Her observations at the school as well as her research provided a window into
possibilities for learning in environments that continue to be disadvantaged in a post-
democratic South Africa. The observations made by the researcher at KN Primary School are
focused on teaching and learning which is provided as part of the context and setting in which
this research had taken place.
4.3 Analysis of Findings
4.3.1 Pre-Research Observations (Base-Line Data)
Despite the challenges at KN Primary School the principal and teachers are committed to
providing quality education to learners. The principal tries to involve parents and the
community in all school activities. He also instils in the learners the importance of their
uniform. In so doing, he creates a sense of pride within the learners and the community. The
administration block is peppered with inspirational quotes to motivate both the learners and
the staff. Class sizes are on average 46 learners and the lack of infrastructure and resources
make teaching difficult at the school (see Table 3.1). Both learners and teachers have a deep
sense of pride despite the challenging conditions observed in the community surrounding the
school, where most learners live. Teacher and learner absenteeism is one of the internal
challenges the school faces.
39
For the purposes of this study the researcher spent four months shadowing the Grade 4
science teacher Ms. Joli (pseudonym). She observed most of the science classes taught by
Ms. Joli and also a number of the English classes taught to the same Grade 4 classes who are
part of this study. Although the language of instruction and the assessments are in English,
much of the formal school activities, including teaching and learning happened in isiXhosa.
For the most part teachers taught in mother tongue and code switched to English where
necessary. The large class sizes and lack of infra-structure made creative teaching
challenging, hence much of the teaching observed was traditional teacher-centred activities
with learner’s being passive for the most part. As isiXhosa poses challenges for the
researcher, communication in this environment in the beginning was not easy. However, it
opened opportunities for learners to practice their English speaking skills and for the
researcher to experience, first-hand, the impact of a language barrier on teaching and
learning. It was, therefore, an observation and conclusion during debriefs with the teacher
that English is not a language that is widely spoken in both the learner’s home and school
environment. Limited opportunities to hear and practice the language could be one of the
barriers to accessing English as a language. In fact, Ms. Joli also confessed to her own lack of
fluency in English. In one debrief session she said, “I don’t feel too comfortable to speak
eEnglish. It’s not what we speak or hear around here,” (Debrief, April, 2013).
Science as a subject was of interest to most learners who seemed enthusiastic with the subject
matter and content, however, most of the lessons observed were mainly explanations
provided by the teacher, with some board-work for vocabulary and to explain scientific
concepts. Some practical activities were sometimes demonstrated by the teacher and the
learners were expected to passively view the activity. The learners were then asked questions
about what they observed. Teachers complained that the time to prepare for lessons was not
adequate and there appeared to be an administrative overload. The researcher had been asked
to cover the classwork or monitor learners while they were working on tasks because the
teacher “…had things to hand in.” (Field notes, April, 2013). As the teachers themselves are
second language English speakers, they too were not comfortable with using the language
unless needed during teaching, where code switching was preferred. However, the teachers
used their mother tongue for the majority of the lesson. Classroom practice required learners
to listen to the teacher most of the time with teacher questioning being the primary means of
interaction. Very little group work and no differentiation for different ability learners were
observed, but brighter learners were asked to assist weaker learners during class activities. An
40
overall conclusion would be that despite various reform efforts the teaching and learning is
still within a traditional teacher-centred paradigm at KN Primary School.
In developing the research design for this study, the researcher included Ms. Joli in much of
her thinking around a Story-Based Learning Design by sharing her research focus and the
various readings around this area of research. Ms. Joli was interested and supportive, as well
as keen to be a part of the study. Hence, both the planning and implementation of this study
included the teacher and school as critical voices who could contribute to deeper
understandings. It also created a community of practice where thoughts could be shared. In
conducting this study the researcher took on the role of participant-observer which enabled a
deeper meaning for the research process. The pilot study and the Story-Based unit of study
was designed and implemented in collaboration with Ms. Joli, who felt like her “skills as
teacher was upgraded because of being a part of the research,” (Field notes, April 2013).
This research study provided Ms. Joli with the opportunity to reflect on her own teaching
practices and the teaching strategies that she uses in her science classroom.
4.3.2 Observations during the Research Process
The research process brought with it “much renewed energy” (Field notes, June 2013) for
both the classroom activities and for Ms. Joli. There appeared to be an enthusiasm building as
the interest in supporting the research as well as ensuring that the process works well was a
“shared enterprise,” (Field notes, June 2013). The learners were surprised by the changes
made to the classroom set-up as the unit based on the Grade 4 Science and Technology CAPS
curriculum on Structures (see Unit Plan Appendices B, C & D) was delivered.
The initial activity of leaving the classroom to observe structures outside the class in the
community was a source of excitement though Ms. Joli was at first reluctant to take the
learners out for the walk. With the class consisting of 46 learners discipline can at times be a
problem. Being outside, the learners may feel that there are no boundaries. During the pilot
study she would only let learners observe through the school fence. However, during the
research process she ventured outside the gates with 42 learners and “survived my [her] fears
that this would be a chaotic process,” (Field notes, June 2013). The learners were able to
look at the structures (mostly houses and shacks) around them, but eventually some learners
41
started to see pylons, a water-tank etc. as structures. Learners were able to deliberate over
structures in meaningful ways during the walk. One learner’s contribution is provided as an
example:
“Look that house, why is there a skeleton of wood poles before putting the roof. I think it’s to
not have the roof blow away. It’s to make it stronger,” (Field notes, June 2013)
Learners came back to the class invigorated after the walk and were able to share their
observations with the class as a whole. It was interesting to note that they were already
beginning to make connections and talk about scientific concepts even though they were not
explicitly exposed to the target vocabulary yet. The walk set the scene for the story of The
Three Little Pigs which was used as the vehicle of engagement/stimulus for this unit of study.
The story was chosen based on Avraamidou and Osborne’s (2009, p. 1689-1390) definition
of a narrative structure (see Table 2.1).
The learners were gathered in front of the class seated in a semi-circle on the floor with Ms.
Joli in the centre facing them. Big colourful picture cards were used as the story was re-told
to depict the various scenes in the narrative. Though the story was not unfamiliar to the
learners they participated with rapt attention as Ms. Joli put on the pig and wolf voices. This
is linked with Strauss (2006, p. 4) as he mentions that storytelling can be defined by the way
the storyteller uses their voice and body language to communicate the story. Eventually the
huff and puff of the wolf became a chorus by the children who helped the wolf huff and puff
and blow down the house.
Ms. Joli’s reflection after this class was that, “the children were so engaged, they seemed to
be having fun and I think they really liked how we used the story,” (Field notes, June 2013).
For the learners to become part of the story, the process that is used to tell the story is
important. In essence, stories are a process of co-creation (Strauss, 2006, p. 7). The rest of the
unit was taught in a period of two weeks (see Appendices B, C & D) with a number of
learner-centred activities designed to introduce the learners to the relevant concepts and skills
related to this unit of study. The target vocabulary was extracted from the unit and used as a
focus throughout the unit of study and in all lessons. Various contextual and activity-based
exposure to the vocabulary was provided to the learners.
42
The story of “The Three Little Pigs” and the target vocabulary were woven into the daily
activities and Ms. Joli made constant references to the story throughout the two weeks. The
colourful cards depicting various aspects of the story were on continuous display in the
classroom and the learners also referred to the story on a number of occasion’s through-out
the two weeks of activity. Learner participation shows the integral part the story played in
how they were connecting concepts learned. One learner said,
“…that story of the pigs made me think of how I was going to build a strong house that will
stand. What I must do extra to the structure…how it must stand.”
According to Bruner (1986, p. 67) this is an example of how the narrative is used to
characterise and organise information. It is a different form of media and it is easier to
understand. With the learners being able to connect the concepts with the story, they showed
the ability to comprehend and make sense out of the information. The culminating activity
required that learners build any structure from recycled materials which they brought in to
class. The learners were meant to build their structure at school, during class time to avoid
assistance from parents, older siblings or community members. Once their structures were
built, they were then asked to:
Write a short paragraph to describe their structures in their science notebooks; and
then
To do a class presentation where they then describe their structure (a show-and-tell
activity).
An in-depth analysis of these two culminating activities are used in this study as an indication
of the influence of a Story-Based Learning Design on learner verbal and written
communication skills using target vocabulary from the science unit structures. The list of
target vocabulary is presented in Appendix C.
43
4.3.3 Implementation of a Story-Based Learning Design
While each learner wrote and presented their descriptions, an analysis of the data showed that
learners could be divided into three ability groups (these divisions were also verified by the
learner’s progress reports – June 2013). However, despite these differences, all of the learners
referred to the story in both their verbal and written descriptions, verifying that the story had
impacted their understanding of science concepts and provided what Egan (2007, p. 12)
referred to as an “engagement” or “cognitive” tool. The story spoke to their emotive and
imagination.
Table 4.1 provides an assimilation of the class data based on specific criteria. The criteria are
as follows:
Mention of the story/ any aspect of the story of “The Three Little Pigs”;
Facilitation of expanded imagination;
Use of Target Vocabulary and
Talk time during activities using target vocabulary (during class activities).
The researcher was able to group the information presented by the learners in the above
mentioned criteria. The data described in Table 4.1 reflects an analysis of all learner
responses in the class. In order to expand on the assimilated results, five different examples
are reported on for the purposes of this study. All terms or phases underlined would have
been learnt through the unit [target vocabulary] or where specific reference is made to the
story. All the learner’s names are pseudonyms.
44
Table 4-1: Assimilation of Data from Culminating Activity
Criteria Learner Response 100% occurrence
[n=46]
Mention of the story/any aspect of the story
of “The Three Little Pigs”
In both verbal and written communication
learners referred to the story.
They often used parts of the story to assist as a
mental structure for explanation “strong like the
pig who built the house of bricks.”
Used the story as a memory tool to facilitate
discussion, “weak structure, like straw when you
hold or press it collapse.”
100%
86%
100%
Facilitation of expanded imagination Most of the learners built houses that were better
than what they live in.
They modified and added additional features [see
Maya’s Palace as an example]
They were enthusiastic and keen to share their
verbal and written descriptions.
83%
62%
100%
Use of Target Vocabulary 3 words
5 words
More than 7 words (usually up to 10 words)
16%
55%
39%
Talk time during activities using target
vocabulary [during class activities]
Learner talk mostly through code-switching, but a
lot of the class talk where target vocabulary was
used, these were in English
62% of class time
For the purposes of this study Table 4.1 is referred to as a Frequency Table. The aim of this
study is to evaluate the extent to which Story-Based Learning can/could stimulate the verbal
and written descriptions of scientific ideas using target vocabulary, therefore, the criteria
(listed above) was chosen. Each of the criteria is grouped with the learner response as well as
the occurrence percentage. This table is used to provide an overview of the results of the
study and the impact that Story-Based Learning had on the verbal and written descriptions of
the learners. A Frequency Table was appropriate for this study as it could be a visual
representation of the data and provides results for the use of a Story-Based Learning Design.
Due to the nature of this study, the criteria needed had to incorporate the necessary elements
of this study i.e. reference made to the story, use of the imagination as it is mentioned in the
literature review the imagination plays an important role, the use of the target vocabulary and
general classroom talk during the activities that the learners were asked to complete. The
n=46 represents the number of learners in the class and, therefore, the 100% represents the
class in percentage form.
45
The criteria and the results are explained below:
Mention of the story/any aspect of the story of “The Three Little Pigs”
The results show that there was 100% occurrence in both the verbal and written
communication of the learners when referring to the story. 86% of the learners often used
parts of the story to assist in their explanations of their structures. Furthermore, 100% of the
learners used the story as a memory tool to facilitate the discussion of their verbal and written
descriptions of the scientific ideas. Therefore, by using a story the learners were able to
remember information and associate their structure with the story.
Facilitation of expanded imagination
In the learner responses it was evident that 83% of the learners built houses that were better
than what they were accustomed to. The results have indicated that 63% of the learners
modified and added additional features to their structures (see Maya’s Palace). 100% of the
learners were enthusiastic and keen to share their verbal and written descriptions. Through
the use of the story the learners were able to think beyond their circumstances and imagine
what their “perfect” structure could be. Some envisioned better homes (see Maya’s Palace)
while others wanted to have a business (Nzuzo’s Garage).
Use of Target Vocabulary
The target vocabulary consisted of 17 words which learners could use while doing their
descriptions. This frequency was measured by them using the words within the correct
context. The results show that Story-Based Learning is effective in stimulating the verbal and
written skills of the learners with regard to scientific ideas using the target vocabulary, as
majority of the learners (57% plus the 39 %) used at least 5 of the target vocabulary words.
This means that more learners were able to remember the actual words which the teacher was
using during the lesson. This indicates that the use of Story-Based Learning is effective, as
leaners used words which they have just learnt, correctly in their descriptions.
46
Talk time during activities using target vocabulary (during class activities)
In the table it is shown that 62% of the class time is used for learner talk through code-
switching. Also, a lot of the class talk where target vocabulary was used, these were in
English. Therefore, the use of the story had a positive impact on the learner talk as the
learners were able to engage with the story and the target vocabulary that was used.
Below, are five examples of the learners’ verbal and written activities. These examples will
provide a better understanding of the results that have been reflected in the Frequency Table
above. The five examples were chosen with the following criteria:
Learners were chosen from each of the three ability groups (high [Maya and Thabo],
medium [Vusi and Nzuzo] and low [Babi]);
Each selection represents a variety of depictions made by learners of the structures
they built; and
Descriptions were target vocabulary was used.
47
4.3.3.1 Maya’s Palace
Figure 4-1: Maya's Place
4.3.3.1.1 Maya’s Written Description
My place [palace] is betifl [beautiful]. I bild [build] my house with brcks [bricks] and cment
[cement] lik [like] the thrd [third] pig. I think abt [about] the frame, the roof to be support
struts so strong and stable. Brck [brick] houses strongest. Coragated [corrugated] sheet weak
and bending. It can fly away. My house will be a duble story [double storey]. I want hndred
stays[hundred stairs] to walk down. I make lots of big wndws [windows]. I want light to
come in. Must be bright and suny [sunny]. I love my house.
4.3.3.1.2 Maya’s Verbal Description
“My palace is going to be strong like third pig’s house, not weak like straw house or stick
house. There’s no wolf here [laughs], but wind…she um blows hard, blowing the house. I
made the roof here…extra support, struts to hold it [turning the house and showing match-
sticks underneath the pyramidal roof]. My house is three in one…see [pointing to two square
parts attached to a square cylinder in the middle]. It is strong, like the pig’s brick house see
[pointing to the seams of attachment]. The front will be here [pointing to the cut out door in
48
the center of the cylinder]. Octagonal big windows for lots of light in. I don’t like dark house.
Many windows air will come. No chimney, no smoke…it coughs. My house he he you will
now it from far away, I will see you from up…eco-friendly…we should save water. I make
stairs going up, to my room. One hundred stairs for princess Maya [laughs loudly] halala.”
4.3.3.2 Thabo’s Arches
Figure 4-2: Thabo’s Arches
4.3.3.2.1 Thabo’s Written Description
My house is strong made of bricks like pig 3. There is three bedrooms and two bathrooms. I
made the house strong by using bricks and cement, then plastering [plastering] and painting
it. Once I made the support, I see the roof because t [it] should not blow aaway [away]. I put
struts and glue them into a skeleton frame. When this was not shaky I put up the walls. I read
in the book that artches [arches] carry the load. They carry weight. So in the center and in the
vurandar [veranda] I make atrches [arches] to hold the roof tight. My house is very strong.
49
4.3.3.2.2 Thabo’s Verbal Description
“My beautiful house has three rooms. It is bricks so strong and solid. No wolf will blow my
house down. I build my house with a strong sloping roof to rain fall down not leaking in. This
is where I’ll sit outside on my veranda with a lazy boy chair. See this arches [pointing to
pillars around the veranda] they can hold weight. They hold the roof stable. Press here she
can’t fall. Arches bear the load so I build it to carry the roof. Come inside [opening the front
cut out door] see my sitting room. Very big, big screen TV to watch soccer. From here I will
eat on my dining room and see the TV. My room here. You wash in the house in the
bathroom. It’s great. Not boiling pots of water…no wolf can come [chuckles]. Ikentucky
everyday”
4.3.3.3 Vusi’s Red House
Figure 4-3: Vusi’s Red House
4.3.3.3.1 Vusi’s Written Description
My house is red it spel [spell] for dgr [danger]. It is a big house for girls and boys. Have strg
[strong] and stbl [stable] house like pig. Many wdows [windows] and doors. Wall is thk
[thick] no sssss [sound] frm [from]. I make sport [support] frame is dsin [?]. My house nce
[nice].
50
4.3.3.3.2 Vusi’s Verbal Description
“My red house made of bricks like pig’s house. It’s so so strong no one can break it. No, no,
no. I join two houses you see to make this L-shape…more rooms, bathroom.. Girl stay here
[pointing to the shorter wing] and the kitchen make food and the boys here near here to
protect the house…from the wolf [laughs]. I look how to make a strong frame before I put up
the walls and roof. See here I have inside support [points to match-sticks glued along each
seam]. This can be a weak spot [point to attachment where the two roofs meet]. No good,
board is too thin. Joint should be good wind will huff and puff and blow it down.”
4.3.3.4 Nzuzo’s Garage
Figure 4-4: Nzuzo’s Garage
4.3.3.4.1 Nzuzo’s Written Description
I make bg [big] huse [house]. Two grj [garages] with tks [trucks]. Pig huse [house] strn
[strong]. Rf [roof] no blw [blow] stb [stable]. Wdw [window].
51
4.3.3.4.2 Nzuzo’s Verbal Presentation
“I make my house with two garage cos I will transport in trucks. Garage strong not blowing
down by wolf. Backside I make rooms with windows. Roof be strong, hold tight, not fall
down. See truck go vroom, vroom, vroom [gets distracted by the truck] take bricks to build
not sticks. This here [point to garage in front] for my car, there [point to garage off-set from
the house] is for my truck. Nice strong house to park my truck.”
4.3.3.5 Babi’s Spaza
Figure 4-5: Babi’s Spaza
4.3.3.5.1 Babi’s Written Description
I mk [make] sza [spaza] t [to] sl [sell] brd mlk [bread and milk]. tn crrg [corrugated] wnd
[window]. Srg [strong] lk [like] pig hs [house].
4.3.3.5.2 Babi’s Verbal Description
“I make spaza shop selling bread and sweets. It have window and beautiful. See from
window. Ispaza strong and not made by brick but lock it tight, like little pig. No problem.
Roof is high and see door here……mmmm [silence for some time] put paper around for
strong. Like this [point to wrapping paper]. Cut here put stick for stand up tall. It be strong.”
52
Both Table 4.1 and the data provided from the work of five learners show an overwhelmingly
positive response to a Story-Based Learning Design. Through the use of a story the learner’s
verbal and written skills were stimulated as they were able to recall information with regard
to the target vocabulary and the story. Some were able to use words that were not part of the
target vocabulary. The use of a narrative influenced the learners to remember information, in
this case scientific concepts with the help of the target vocabulary. The story was used as a
memory tool, a vehicle for understanding and explaining scientific concepts as well as a
stimulus for the use of target vocabulary. Learners of all abilities showed confidence in using
the target vocabulary and all the aspects of the story as part of their verbal and written
descriptions.
4.3.4 Assimilation of Learner Data
“Stories engage children because children engage well with fantasy” (Egan, 2007, p. 4). The
story of The Three Little Pigs focused on building houses for strength, with the wolf testing
the strength. The narrative of this story enabled a progression to deciding which of the houses
was the strongest. A comparison of the three houses, straw, sticks and bricks opened a
discussion on what makes a structure strong. With that as a basis, learners were able to make
meaning of the various activities and concepts discussed through the unit (refer to Table 4.1).
The target vocabulary was also contextualised and used by the learners in meaningful ways.
It was evident that a number of learners [in the top ability group] could spell the target words
and use them appropriately (refer to Table 4.1 and the five examples provided).
A review of the learner’s written descriptions and verbal presentations shows that the learners
used the story as a “cognitive tool to develop an oral tool” (Egan, 2007, p. 3). The story was
used to give shape and affective meaning to their descriptions. Fantasy stories that most
adults still remember usually have a simple binary conflict as an underlying structure. In the
case of this study, strong and weak were the “binary oppositions” (Egan, 2007, p. 5) that
enabled their initial grasp of scientific concepts related to structures. In most of the verbal and
written descriptions, reference was made to the story and in particular, the desire to build a
strong structure was evident. As Egan (2001, p. 56) proposes, “fantasy comes with language.
It is primarily a product of the language mind.” An analysis of the written and verbal
descriptions shows that the use of the story had stimulated language in that learners were able
53
to relate to a frame from which to speak and write. Egan (2007, p. 34) adds that the
development of the imagination is dependent on the learner’s having knowledge. It was
evident from the findings that through the use of the story the learners were able to gain an
understanding of strong and weak structures. It was also evident from the findings that the
mental conceptualisation of weak and strong was a primary consideration when they created
their own structures. It is of importance to note that many of the learners chose to make
houses better than the ones they live in, which supports Egan’s (2001, p. 23) observation that
in order for the learners to understand the scientific concepts and target vocabulary requires
that their imaginations be developed.
Bruner (1996, p. 85) stated that the narrative is the default mode of thinking. As the learners
talk to one another they share their structures and what it means to them. The learners were
able to develop a sense of confidence through the Story-Based unit as they were able to relate
to it. The culminating activity provided an opportunity for the learners to use their
imaginations. Their imaginative processes were evident in their verbal descriptions as many
of them used their current homes as a point of reference. Many of the learners mentioned that
they would like a house made of bricks so that it can be as strong as the third pigs house,
having hot and cold water in their homes, they would like to have a strong frame structure
before they build any walls (see Table 4.1 and the five examples provided).
Most of the structures made by the learners were well thought out and designed with an end
in mind. It was interesting to note that all learners made structures that reflected an
improvement of their lives and most chose to build homes while some had some business
focus. Home industries are a part of the community that surrounds the school, so it is likely
that they were already contemplating what it would be like to have a business (Thabo with his
transport idea and Babi with her spaza shop). They all wanted to have rooms, bathrooms,
doors and windows. All built their structures purposefully considering how to make the
structures strong. They were able to use scientific concepts “carry load,” “weight,”
“stable,” “support,” in their verbal and written descriptions. There was also target
vocabulary that was commonly used by most learners.
These findings show strong evidence that learners were able to connect to the story and
further ideas that were scientific in nature. Furthermore, Story-Based Learning has stimulated
54
learner talk and enhanced the learner’s use of the target vocabulary when writing descriptions
of scientific ideas.
4.4 Teacher Perspectives
An interview was done with Ms. Joli to determine her perspective of Story-Based Learning in
the Science and Technology classroom. The interview questions posed was mainly focused
on her personal thoughts and perspectives of the unit, the new method of teaching and
whether the Story-Based Learning has a positive impact on teaching and learning and the
learners.
“I have been transformed, this research has opened my eyes to how my learners can learn
these concepts, talk about it and write it. I’m convinced that these are the kind of tools we
should be using in our classes because it really works. As I think back on how the process
unfolded, the pilot and then this work. I was scared at first to tell the truth but slowly I was
reassured and given confidence. Though this was not my research, it makes me feel like I did
this, it is my process. I learnt so much from this because it’s definitely how you engage the
learners. This Story-Based Design was a hook on which my learners could visualise the
concepts and the English vocabulary. It made a difference…absolutely made a difference.
Now I can show others, I’m empowered truly.”
[Ms. Joli exit interview, August 2013]
In reflecting on the process Ms. Joli was emphatic that there is value in this methodology,
“that it works,” and that “it made a difference to learners.” Her reflection above shows how
her involvement as an active participant in the research process made a difference to her. She
says “it empowered her.” Being exposed to the research process can be scary at times and an
intimidating experience, however, the researcher’s facilitation of the learning process and the
building of a team was well received. Ms. Joli was able to “trust the process” and “not be
afraid that someone’s watching” or that “she was doing the wrong things.” She confirmed
that teacher’s need to facilitate learning and that even science teachers must be teachers of
language when the LoLT is English in contexts where learners are second language English
speakers. She also confirmed that in this unit through this strategy “learners were more
excited to learn and they performed better.”
While Ms. Joli felt that a Story-Based Learning Design has value, she also highlighted the
following challenges:
55
“This type of strategy is good for teachers but it needs a lot of preparation which I can see
could be difficult for teachers. It also needs you to try new things and for older teacher
[laughing] like me that can be quite daunting. A lot of us also don’t involve ourselves in
research so we keep doing this with using traditional method because we like the control.
Like I was worried about taking the learners outside the gate, I’ve not done it before so you
always think things will go wrong. That could be another thing one must take note of with
these teachers.”
[Ms. Joli exit interview, August 2013]
Ms. Joli’s involvement provided a number of insights that the researcher thought was
important if teachers are to be encouraged to use new methodologies in their classrooms.
How the process is approached, how their fears are allied, what support is provided and
where the experiential meets the theoretical are all important considerations. In addition,
creating an atmosphere of ease played a big role in how the teacher embraced the
opportunity.
4.5 Conclusion
This chapter presented a discussion of the findings within this study. The findings provide
evidence that the use of stories has an impact on the verbal and written descriptions of the
scientific concepts and target vocabulary. Ms. Joli’s interview showed that she has a positive
perspective, and terms Story-Based Learning as a positive tool for learning. Combining the
learner’s results and Ms. Joli’s response to the interview, it can be suggested that that stories
can be used as a vehicle for teaching and learning in Science and Technology education. The
most important aspect that requires consideration is that stories, engage, they stimulate the
use of the imagination and they connect concepts to structured thought. This makes learning
science meaningful and connected to everyday living. Through this mechanism learners will
be motivated to learn science and more importantly enjoy the learning process. This is the
kind of platform good education should provide. In addition, how we encourage teachers to
experiment with new ideas needs deeper consideration.
56
Chapter 5: Conclusion and Recommendations
5.1 Introduction
The previous chapter described in detail the findings of this study after an analysis of the data
gathered. The results of this study indicates that a Story-Based Learning Design has the
potential to enhance learner understandings, engage learners in the subject and contribute to
their confidence in communicating their knowledge. The purpose of this chapter is to present
a summary of the study, to draw pertinent conclusions and to make recommendations for
present and future research based on the findings. The study is located within the realm of
classroom discourse where the kind of teaching that leads to meaningful learning is
considered.
5.2 Summary and Conclusions
Stories are an ancient method of teaching and learning. Bruner considered them to be “a
mode of thought, a communication strategy and a form of expression,” (Bruner, 1986, p. 26
& 1996, p. 37). Research (Egan, 2007, p. 72, Muurman & Avraamidou, 2013, p. 264 &
Strauss, 2006, p. 56) suggests that stories could be used as a tool for learning. Hence, this
study aimed to consider the extent to which a Story-Based Learning Design can influence
verbal and written descriptions of scientific content and target vocabulary in a Grade 4
Science and Technology classroom.
A socio-constructivist approach is the theoretical underpinning where learning is viewed as a
social construct was described. Peregoy (2011, p. 3) has explained that the Vygotskyian
theory places emphasis on the fact that the learner’s gain their knowledge and the ability to
solve problems through the process of interacting with their teachers, classmates and their
socio-cultural environments. This motivates why a Story-Based Learning Design was chosen
for this study. Egan (2001, p. 66, 2005, p. 19 & 2007, p. 56) has suggested that stories are a
primary form of understanding.
57
Furthermore, Avraamidou and Osborne (2009, p. 1698) observed that stories can be used as a
vehicle for communicating science, because they are used in our everyday lives and are a
means for communicating understandings, experiences and events. Stories can also be used in
science as a tool to access ideas, beliefs and values and they provide a cross-cultural and
diverse understanding of the scientific world.
Egan (2007, p. 58) believes that the imagination is a necessary and neglected component of
rational, cognitive activity. He (Egan, 2007, p. 65) also argues that educators should take the
imagination seriously. It is believed that the key strategy for developing the imagination is
the narrative (Egan, 2001, p. 101). Through this study it became evident that children’s
imaginations are more readily stimulated by content that engages their emotions rather than
content that does not. This is indicated in their results as they were able to relate to the story,
due to their own environment, because their descriptions presented a desire to have a home
better than their present. Therefore, the story of The Three Little Pigs was used as the learners
could relate to this based on their background and this could have aided their memory recall.
Narrative text is easier to comprehend than expository text (factual and informational
material) (Williams, 2000, p. 59). Therefore, using stories can support teaching and learning.
This further suggests that human beings are able to retain information when it is presented in
an interesting and engaging way. Norris et al., (2005, p. 356) supports this view by stating
that the “narrative, effect enhances memory, interest and understanding”.
The use of a Story-Based Learning Design was effective as it enabled the lessons to be
structured differently i.e. the lessons were emotionally engaging for the learners, the learners
were able to participate in the lessons and the learners were taken on a walk outside to be able
to visualise the concept of structures. In so doing, the learners were able to enhance their
imagination as well as being active participants in the lessons.
A qualitative case study research design was employed with the researcher taking the role of
participant-observer was employed to analyse whether a Story-Based Learning Design could
influence verbal and written communication amongst learners in a Grade 4 Science and
Technology classroom. A unit of study was designed and implemented using Story-Based
Learning. From the results obtained, the following pertinent conclusions can be derived:
58
Firstly, stories attract learners and have the potential to be used as a vehicle for
learning scientific concepts and target vocabulary. In this study all learners enjoyed
the inclusion of the story. Observation showed that they were “engaged,” “imitated
the wolf’s huffs and puffs” etc. All of the learners also mentioned the story as part of
their verbal and written descriptions (Table 4.1 and Fig 4.1 to 4.5);
Secondly, the stories enabled learners to make meaning of abstract concepts and relate
it to their world. The target vocabulary was often attached to parts of the story and it
provided a platform for learners to make meaning of the words. It also facilitated
descriptions of the concepts in English;
Thirdly, the use of imagination assists learners to visualise concepts making learning
relevant. This aspect is especially relevant as is evident from the five examples
provided (Fig 4.1 to 4.5). The learners were able to visualise different purposes for
their structures. They were able to “dream bigger and better for themselves,” (Ms.
Joli);
Fourthly, the use of stories facilitated communication in the LoLT even though this is
not the mother tongue of the learners. Learners of all abilities were much more
confident in using the story to describe their structures and they also used the target
vocabulary in many instances (see Table 4.1 and Fig 4.1 to 4.5); and
Finally, the inclusion of the teacher in classroom based research had an empowering
effect as she was able to co-construct the research design and the implementation of
the Story-Based Learning Design. This left a very positive effect of the research
process on the teacher. She mentioned “being upgraded” and “now more confident to
use the methodology in my [her] class.”
From these conclusions the following recommendations for further research are made.
59
5.3 Recommendations
The use of narratives in school science requires a transformation of current classroom
practices. Teachers would need to change their current pedagogical approaches and recognise
the significance of narratives in teaching science concepts. This suggests the need for
identifying existing narratives that communicate scientific ideas and for developing narratives
for specific subjects to be used in the classroom either at the beginning of a lesson to
stimulate student interest, as well as in conjunction with an inquiry investigation or at the end
of a lesson as an extension, depending on the subject and goals of the lesson. This has
implications for teacher education and teacher practices.
It is, therefore, recommended that teacher preparation programmes provide prospective
teachers with opportunities to learn science through narratives. Narrative texts can be
incorporated in science methods courses for the purpose of supporting prospective teachers in
developing the pedagogical content knowledge needed to incorporate, effectively, narrative
texts in their own teaching practices in the future.
Equally important is the design of a curriculum that supports a Story-Based approach.
Avraamidou and Osborne (2009, p. 1705) suggest that teachers develop ‘participatory’
relationships with the materials that enables effective modification, learning and use. In
essence, they argue that it is imperative that teachers develop specific pedagogical content
knowledge that would enable them to approach the narrative-based curriculum materials
flexibly and make adaptations to them in order to fit in with their local classroom contexts
and instructional objectives.
Another recommendation would be the exploration of the role of the narrative in
communicating science and the ways in which the narrative supports learner comprehension
and facilitates science learning. Future research should be directed in the area of narrative use
in science which aims at identifying existing fictional narratives and its effects on learning.
These could illustrate the ways in which narratives are structured, organised, and used in
certain learning environments. Teachers can then draw upon these resources, to explain a
variety of scientific concepts in a wider variety of settings.
60
In addition to identifying existing narratives that could be used in science, it might also be
useful to explore the idea of learners constructing their own oral or written narratives as a
way of engaging with and making meaning of natural phenomena and communicating
scientific ideas (e.g., Conle, 2003, pp. 3-15 & Meyer, 1998, p. 467). It is also recommended
that studies investigate the ways in which narratives support learning within the context of
science. Questions that can be explored are those associated with the impact of narratives on
people’s understanding of science concepts. Equally important, would be to identify which
specific elements of narratives people recall the most and what impact those have on their
understandings.
5.4 Conclusion
In this study an attempt was made to make the case for the use of narratives as a way of
communicating science that makes it meaningful, relevant and accessible. While drawing on
Bruner’s (1986, p. 17) argument that narrative is central in how people understand the world
they live in and that it serves as a means to communicate personal understanding to others,
this study does not claim that the use of narratives in science is the solution to all science
education’s problems, or the best way of representing scientific information, rather, it suggest
that it is one approach to communicating science and representing specific scientific ideas.
Story-Based Learning has assisted in stimulating learner talk and writing descriptions of
scientific ideas by the learners using of the target vocabulary in a different language, in this
case English. The learners showed improvement in the language as English is their second
language. Given the success of the methodology in the South African context, it does hold
potential for use in multi-lingual and multicultural South African classrooms.
61
References
Adam, K. 2003. Women’s Empowerment and Leadership in Education: A Key Factor For
Emiratisation in the United Arab Emirates. M. Ed. University of South Africa.
Andrews, D., Hull, T. & Donahue, J. 2009. Storytelling as an Instructional Method :
Descriptions and Research Questions. The Interdisciplinary Journal of Problem-based
Learning, 3 (2), pp. 6-23.
Atta-Alla, M.N. 2012. Integrating Language Skills through Storytelling. English Langage
Teaching, 5 (12), pp. 1-13.
Avraamidou, L. & Osbourne, J. 2009. The Role of Narrative in Communicating Science.
International Journal of Science Education, 31 (12), pp. 1683-1707.
Babbie, E. & Mouton, J. 2001. The Practice of Social Research. Cape Town: Oxford
University Press.
Baker, L.M. 2006. Observation: A complex research method. Library Trends, 55 (1),
pp. 171-189.
Bernard, H.R. 1994. Research methods in anthropology: qualitative and quantitative
approaches (second edition). Walnut Creek, CA: AltaMira Press.
Bloch, G. 2009. Building Education Beyond Crisis. Development Today. Available at:
http://www.dbsa.org/Research/Documents/Building%20education%20beyond%20crisis.
pdf?AspxAutoDetectCookieSupport=1. [Accessed 23 November 2013].
Bogdan, R. & Biklen, S. 2003. Qualitative research fro Education: An Introduction to Theory
and Methods. 4th ed., New York: Pearson Education Group.
62
Bostrom, A. 2006. Sharing lived experience. How upper secondary school chemistry teachers
and students use narratives to make chemistry more meaningful. Ph. D. Dissertation.
Stockholm: Stockholm University.
Bruner, J.S. 1986. Actual Minds Possible Worlds, Cambridge, MA: Harvard University Press.
Bruner, J.S. 1996. The Culture of Education, Cambridge, MA/London: Harvard University
Press.
Carey, R.F., McKechnie, L E.F. & McKenzie, P.J. 2001. Gaining access to everyday life
information seeking. Library & Information Science Research, 23, pp. 319-334.
Cherry, A.L. 2000. A Research Primer for the Helping Professionals: Methods, Statistics and
Writing. Belmont, USA: Wadsworth/Thomas Learning.
Cohen, L., Manion, L. & Morrison, K. 2007. Research Methods in Education. 6th ed.,
London: Routledge.
Conle, C. 2003. An anatomy of narrative curricula. Educational Researcher, 32 (3), pp. 3-15.
Conole, G., Scanlon, E., Kerawalla, C. & Mullholland, P. 2011. From design to narrative:
The development of inquiry-based learning models. Available at: http://www.TLRP.org.
[Accessed 13 July 2013].
Creswell, J.W. 2003. Research Design: Quantitative, Qualitative, and Mixed Methods
Approaches Research. 3rd Ed., Thousand Oaks, London: Sage Publications.
Creswell, J.W. 2007. Qualitative Inquiry and Research Design. Choosing Amongst Five
Approaches. New York: Sage Publications.
Davis, Z. 2010. Researching the constitution of Mathematics in pedagogic contexts. In: V.
Mudaly (Ed.), Proceedings of the 18th Annual Meeting of the South African Association
for Research in Mathematics, Science and Technology Education – Crossing the
Boundaries (p. 378-387). UKZN.
63
De Munck, V.C. & Sobo, E,J. (Eds). 1998. Using methods in the field: a practical
introduction and casebook. Walnut Creek, CA: AltaMira Press.
Denzin, N. & Lincoln, Y. 2005. The Discipline and Practice of Qualitative Research. In: N.
Denzin & Y. Lincoln, eds. The Sage Handbook of Qualitative Research2. Thousand
Oaks, CA: Sage.
Department of Education. 2012. Report on Annual National Assessment (ANA) Reports 2012.
Available at:
http://www.education.gov.za/LinkClick.aspx?fileticket=YyzLTOk5IYU%3D&tabid=29
8. [Accessed19 October 2013].
De Vos, A.S. 2001. Research at Grassroots.3rd ed., Pretoria: Van Schaik Publishers.
DeWalt, K.M. & DeWalt, B.R. 2002. Participant observation: a guide for fieldworkers.
Walnut Creek, CA: AltaMira Press.
DeWalt, K.M. & DeWalt, B.R. 1998. Participant observation. In H. Russell Bernard (Ed.),
Handbook of methods in cultural anthropology (pp. 259-300). Walnut Creek: AltaMira
Press.
Diermyer, C. & Blakesley, C. 2009. Story-Based Teaching and Learning: Practices and
Technologies. In: 25th Annual Conference on Distance Teaching and Learning. pp. 1-4.
Available at:
http://www.uwex.edu/disted/conference/Resource_library/proceedings/09_20210.pdf.
[Acessed 24 May 2013].
Dillenbourg, P. 2004. Framework for integrated learning. Kaleidoscope, 13, pp. 15-29.
Dillenbourg, P. & Tchounikine, P. 2007. Flexibility in macro-scripts. In: F. Fisher. ed.,
Scripting computer-supported collaborative learning. NY: Springer.
Egan, K. 1986. Teaching as Storytelling: An Alternative Approach to Teaching and
Curriculum in the Elementary School. Chicago: The University of the Chicago Press.
64
Egan, K. 2001. The Cognitive Tools of Children’s imagination. In: The Annual European
Conference on Quality in Early Childhood Education. Alkmaar, Netherlands, pp. 1-24.
Egan, K. 2005. An Imaginative Approach to Teaching, San Francisco. CA: Jossey-Bass.
Egan, K. 2007. Imagination, Past and Present. In: K. Egan, M. Stout, & K. Takaya, eds.
Teaching and Learning Outside the Box: Inspiring imagination across the Curriculum.
New York: Teachers College Press.
Erlandson, D. A., Harris, E. L., Skipper, B. L. & Allen, S. D. 1993. Doing naturalistic
inquiry: a guide to methods. Newbury Park, CA: Sage.
Gilbert, J., Hipkins, R. & Cooper, G. 2005. Faction or fiction: Using narrative pedagogy in
school science education. Paper presented at the Redesigning Pedagogy: Research,
Policy, Practice Conference, Nanyang University Institute of Education, Singapore.
Gorman, G.E. & Clayton, P. 2005. Qualitative research for the information professional. 2nd
ed. London: Facet.
Grix, J. 2004. The Foundations of Research. New York: Palgrave Macmillan.
Grugeon, E. & Gardner, P. 2000. The Art of Storytelling for Teachers and Pupils: Using
Stories to Develop literacy in Primary Classrooms. London: David Fulton Publishers.
Hoadley, U. 2010. What do we know about teaching and learning in primary schools in South
Africa? A review of classroom-based research literature. Available at:
http://nicspaull.files.wordpress.com/2011/04/hoadley-2010-wced-project-literature-
review-final.pdf. [Accessed 15 November 2013].
Klein, P.D. 2006. The challenges of scientific literacy: From the viewpoint of seond-
generation meta-cognitive science. International Journal of Science Education, 28 (2-3),
pp. 143-178.
65
Lake, J. 2000. Literature and science breakthroughs: Connecting language and science skills
in the elementary classroom. Markham, Ontario: Pembroke Publishers Limited.
Lapan, S.D., Quartaroli, M.T. & Riemer, F.J. 2012. Introduction to Qualitative Research. In
S. D. Lapan, M. T. Quartaroli, & F. J. Riemer, eds. Qualitative Research: An
Introduction to Methods and Designs. San Francisco, CA: Jossey-Bass.
Lichtman, M. 2010. Qualitative Research in Education: A User’s Guide. 2nd ed., California:
SAGE Publications Inc.
Lodico, M., Spaulding, D. & Voegtle, K. 2010. Methods in Educational Research:From
Theory to Practice. 2nd Ed., San Francisco,CA: Jossey-Bass.
Marshall, C. & Rossman, G. B. 1989. Designing Qualitative Research. Newbury Park, CA:
Sage.
Marshall, C. & Rossman, G.B. 2006. Designing Qualitative Research. 4th ed., Thousand
Oaks, CA: Sage.
McFarlane, J. 2000. A critical investigation into course development for the preparation of
school leaders. Ph. D. Rhodes University.
McMillan, J. & Schumacher, S. 1993. Research in Education: A Conceptual Introduction. 3rd
ed., New York: Harper Collins.
McMillan, H. & Schumacher, S. 2005. Research in Education: A conceptual Introduction.
5th Ed. New York: Harper Collins College Publications.
McLean, M. & Wason-Ellam, L. 2006. When Aboriginal and Metis Teachers use Storytelling.
Available at: http://www.education.gov.sk.ca/storytelling. [Accessed 16 November
2013].
Merriam, S.B. 1998. Case Study Research in Education: A Qualitative Approach. San
Francisco, CA: Jossey-Bass.
66
Mertens, D.M. 2012. Ethics in Qualitative Research in Education and the Social Sciences. In:
S. D. Lapan, M. T. Quartaroli, & F. J. Riemer, eds. Qualitative Research: An
Introduction to Methods and Designs. San Francisco, CA: Jossey-Bass.
Meyer, K. 1998. Reflections on being female in school science: Toward a praxis of teaching
science. Journal of Research in Science Teaching, 35, pp. 463-471.
Millar, R. 2008. Taking science literacy seriously as a curriculum aim. In: 9th Asia-Pacific
Forum on Science Learning and Teaching. Available at:
http://www.ied.edu.hk/apfslt/download/v9_issue2_files/foreword.pdf. [Accessed 20
November 2013].
Mott, W.B. & Lester, J. 2006. Narrative-centered tutorial planning for inquiry-based
learning environments. In: Proceedings of the 8th International Conference on Intelligent
Tutoring Systems (ITS-2006), Jhongli, Taiwan.
Murmann, M. & Avraamidou, L. 2013. Animals, Emperors, Senses: Exploring a Story-based
Learning Design in a Museum Setting. International Journal of Science Education, Part
B: Communication and Public Engagement, pp. 1-26.
Negrete, A. 2003. Fact via fiction. The Pantaneto Forum. Available at:
http://www.pantaneto.co.uk/issue12/front12.htm. [Accessed 17 November 2013].
NFER (National Foundation for Educational Research), 2011. Exploring young people’s
views on science education, London, UK. Available at:
http://www.wellcome.ac.uk/stellent/groups/corporatesite/@msh_peda/documents/web_d
ocument/wtvm052732.pdf. [Accessed 10 November 2013].
Neuman, W.L. 2003. Social Research Methods: Qulaitative and Quantitative Approaches,
Boston: Pearson Education.
Nieuwenhuis, J. 2007. Qualitative Research Designs and Data Gathering Techniques.
London: Sage Publications.
67
Norfolk, S., Stenson, J. & Williams, D. 2006. The Storytelling Classroom: Applications
across the Curriculum., Westport, CT: Libraries Unlimited.
Norris, S.P., Gilbert, S.M., Smith, M.L., Hakimelahi, S. & Phillips, L.M. 2005. A theoretical
framework for narrative explanation in science. Science Education, 89, pp. 535-563.
Osborne, J. 2007. Science Education for the Twenty First Century. Urasia Journal of
Mathematics, Science & Technology Education, 3 (3), pp. 173-184.
Peregoy, D. 2011. Russion Psychologist: Lev Vygotsky and the Constructivist Theory. pp. 1-9
Picarello, B. 2000. Tasting nature. In: B. Bourne. ed., Taking inquiry outdoors: Reading,
writing, and science beyond the classroom walls. York, ME: Stenhouse Publishers.
Piper, H. & Simons, H. 2005. Ethical Responsibility in Social Research. In: B. Somekh & C.
Lewin, eds. Research Methods in the Social Sciences. SAGE Publications Inc.
Pole, C.J. & Lampard, R. 2002. Practical Social Investigation: Qualitative and Quantitative
Methods in Social Research. Harlow, England: Prentice Hall.
Rice, D.C., Dudley, A.P. & Williams, C.S. 2001. How do you choose science trade books?
Science and Children, 38, pp. 18-22.
Sanfeliz, M. & Stalzer, M. 2003. Science Motivation in the Multicultural Classroom. The
Science Teacher, pp. 64-66.
Schensul, S. L., Schensul, J. J. & LeCompte, M. D. 1999. Essential ethnographic methods:
observations, interviews, and questionnaires (Book 2 in Ethnographer's Toolkit).
Walnut Creek, CA: AltaMira Press.
Scrivener, J. 2005. Learning Teaching. Oxford: Macmillan.
68
Setati, M., Adler, J., Reed, Y., & Bapoo, A., 2002. Incomplete Journeys: Code-switching and
Other Language Practices in Mathematics, Science and English Language Classrooms in
South Africa. Language and Education. 16 (2), pp. 128-149.
Stears, M. 2008. Children’s stories: What knowledge constitutes Indigenous Knowledge?
African Journal of Indigenous Knowledge Sysytems. 7 (2), pp. 132-140.
Strauss, K. 2006. Teaching Science with Stories. Available at:
http://www.naturestory.com/Resources/PDF2watermarkedScienceTeach.pdf. [Accessed
11 November 2013].
Struwig, F. & Stead, G. 2001. Planning, designing and reporting research, Cape Town:
Maskew Miller Longman.
Suliman, O.M. 2000. A Descriptive Study of the Educational System in the United Arab
Emirates. United States of America: University of California.
Villanueva, M.G. 2010. Intergrated Teaching Strategies Model for Improved Scientific
Literacy in Second-Language Learners. Ph. D. Nelson Mandela Metropolitan
University.
Wang, H. & Marsh, D. 2002. Science Instruction with a Humanistic Twist: Teachers’
Perceptionnand Practice in Using the History of Science in their Classroom. Science and
Education, 11 (2), pp. 169-189.
Williams, J. 2000. Strategic processing of text: Improving reading comprehension for
students with learning disabilities. ERIC Clearinghouse on Disabilities and Gifted
Education. Available at: http://ericec.org/digests/e559.html. [Accessed 15 July 2013].
Yulianty, Y. & Premadi, P.W. 2010. Teaching Science Using Storytelling Method. In:
Indonesia Astronomy and Astrophysics. pp. 173-178.
Zipes, J. 2004. Speaking Out: Storytelling and Creative Drama for Children. New York:
Routledge.
69
APPENDIX A: Ethics approval
70
APPENDIX B: Grade 4 Unit Plan
Grade 4: Strengthening Materials and Strong Frame Structures
Unit Plan
Lesson 1
Resources Used Teacher Input Learner Activity Time
Being outdoors:
The environment surrounding the school. The learners are
taken on a walk just outside the school.
The teacher, briefly, talks to the
class about structures. The
learners are asked to provide
examples of structures in the
surrounding area.
Possible answers from the
learners: houses, shacks,
fences, electricity pole, school,
cars etc.
10-15 minutes
In the classroom:
Story of The Three Little Pigs.
As the story is read the teacher
will put up pictures of the story
on the board. At the end of the
story, the teacher will ask the
following question: which is the
strongest house and why and
which is the weakest house and
why?
Possible answers:
The brick house is strong
because bricks are strong and
the straw (grass) house is weak
because you can’t build a
house with grass.
15 minutes
Paper, books and a pencil. Activity 1:
The teacher will demonstrate
how to strengthen by folding.
The learners are required to
observe.
5 minutes
Different colour cardboard and books of the same size
shape and weight.
Activity 2:
The teacher will demonstrate
and explain how to strengthen
by making and using hollow
pillars. The teacher will use 3
pillars – circular, triangular and
square shaped.
The learners will work in
groups of 2 and test the
strength of the pillars, to
establish which type of pillar is
the strongest.
10 minutes
The story The teacher concludes with the
story and recaps on what has
been learnt through the story
and the activities.
5 minutes
End of lesson 1 50 minutes
71
Grade 4: Strengthening Materials and Strong Frame Structures
Unit Plan
Lesson 2
Resource Used Teacher Input Learner Activity Time
Pictures of frame structures, taken
from magazines and newspapers
The teacher places a picture of a
frame structure and asks the following
question: what shapes do you see in
your picture?
Learners are given time to examine
their picture. Possible answers:
square, triangle, circle etc.
5 minutes.
The story The teacher briefly recaps on the story
and what took place in the story, also
asking the learners what they can
remember.
Possible answers: 3 houses, a wolf, 3
pigs, weak house and a strong house,
folding paper, testing pillars, etc.
10 minutes
4 long strips and 4 short strips of
cardboard and 12 split pins
The teacher will demonstrate and
explain the activity about strong frame
structures.
The learners will work in pairs and
make their own frame structure as
well as test the strength of the frame
structure.
20 minutes
Small sheet of paper The teacher will demonstrate the
strength of the structures. Structure A
- square frame and structure B –
strong frame structure.
The learners will test the strength of
the own structures and document their
findings on the sheet of paper.
10 minutes
Strong frame structure The teacher will use a strong frame
structure to explain the concept of
triangular struts.
The learners are required to observe.
5 minutes
End of Lesson 2 50 minutes
72
Grade 4: Strengthening Materials and Strong Frame Structures
Unit Plan
Lesson 3
Resource Used Teacher Input Learner Activity Time
The story The teacher starts the lesson by asking
the learners if they remember how
many houses there were as well as
what the houses were made of.
Possible answers:
3 house, grass house, sticks house and
a brick house.
5 minutes
Pictures of the houses in the story are
placed on the board.
The teacher asks the learners the
following questions:
Who of you live in a grass house?
Who of you live in a stick house?
Who of you live in a brick house?
Who of you live in a shack?
Possible answers:
No response
No response
Many hands are raised
Few hands are raised
5 minutes
Posters of the different houses from the
different cultures are showed to the
class
The teacher shows the class pictures of
houses from the different cultures and
with the help of the learners they can
establish what materials are used for
the houses.
Possible answers:
Sticks, bricks, clay, grass, mats,
wood, etc.
5 minutes
Cardboard pillars Using the cardboard pillars the
learners have to identify what shapes
has been used to build the different
houses.
The learner’s share their ideas about
what shapes are used for the different
houses.
10 minutes
Chalkboard The teacher draws different shapes on
the board. The learners are required to
name the shapes.
Possible answers:
Semi-circle, circular shape, cone
shape or triangular shape and a square
shape.
5 minutes
Posters of different houses The teacher shares information about
the different shaped houses and the
cultures.
10 minutes
Worksheet A worksheet is given to the learners
and consists of a mini investigation.
The learners are required to analyse
their homes with regard to the
materials that were used for the walls,
doors, roof and window frames.
10 minutes
End of Lesson 3 50 minutes
73
Grade 4: Strengthening Materials and Strong Frame Structures
Unit Plan
Lesson 4
Resources Used Teacher Input Learner Activity Time
The Story The teacher recaps on the story by
asking various questions, with regard
to what the learners are able to
remember.
Learners are required to reflect on the
story
3-5 minutes
The activities The teacher, together with the learners
reflect on the activities that they
participated in.
The learners are required to reflect on
the activities.
3-5 minutes
Different types of materials:
Boxes, toilet rolls, yoghurt cups, glue,
sand, grass, pieces of material, etc.
The teacher explains their last activity.
It consists of a designing their own
structure.
The learners have to design their own
structure. They were asked to bring
their own materials.
90 minutes*
End of Lesson 4 50 minutes
*the last activity will use 2 lessons.
APPENDIX C: Target Vocabulary
Target vocabulary
Strong
Structure
Building
Strengthen
Circle
Roof
Pillars
Triangle
Bridge
Struts
Grass
Wall
Bricks
Weight
Framework
Wood
Solid
75
APPENDIX D: Lesson Activities
Lesson 1 Activities
Activity 1 – Strengthening by folding
The teacher completes this activity.
You need:
A sheet of folded paper, a flat sheet of paper, 6 textbook of the same size and weight and a
pencil.
Method:
1. Prepare the books in stacks of 3, so that you have 2 piles of equal distance apart.
Place the flat sheet of paper on the pile of books and thereafter, put the pencil on
top. Record what happens.
2. Next place the folded sheet of paper on the 2 piles of books and record what
happens.
76
Activity 2: Strengthening by using hollow pillars
The class completes this activity in partners.
You need:
Circular, square and triangular shaped pillars (one of each). 10 textbooks of the same
weight and size between the pairs.
Method:
Using one pillar at a time, place the textbooks on the pillars and then see which one
collapses.
Record the number of textbooks that each pillar could hold. Thereafter, discuss the
conclusions that can be made.
Let us go back to our activity with the hollow pillars. We can take our information and
record it using a bar graph.
Bar graph: a diagram or picture that shows information in bars or columns.
Example:
Circular pillar Square pillar Triangular
pillar
Number of textbooks
carried by pillars
1
4
2
Title: Comparing the strength of different shaped pillars
77
Lesson 2 Activity
Learners will work in pairs. The teacher will demonstrate first.
You need:
4 long struts, 4 short struts and 12 split pins.
Method:
Join the 4 long struts with the split pins. Place the square frame on the desk, take the
opposite corners and move them toward one another. Learners share what happens.
Thereafter, attach the small struts to the square frame to form triangular struts. Again,
place the frame structure on the desk and move the opposite corner toward one another.
Learners need to record their observations in the following table.
Square frame structure Frame structure with
triangular struts
Sides of frame split open at the
corner joints.
Sides of frame moved closer
together at two corner joints.
Corner joints stay stable and
strong.
Frame is stable.
Frame is unstable.
78
Lesson 3 Activity
Materials of structures
Instruction:
Find out the following by talking to your parents or guardians.
1. What materials were used for the walls?
_________________________________________________________________________
_________________________________________________________________________
______________________________________________________________________
2. What materials were used for the roof?
_________________________________________________________________________
_________________________________________________________________________
_______________________________________________________________________
3. What materials were used for the doors?
_________________________________________________________________________
_________________________________________________________________________
_______________________________________________________________________
4. What materials were used for the window frames?
_________________________________________________________________________
_______________________________________________________________________
_______________________________________________________________________
This question you can answer on your own:
We have learnt about the Zulu hut, Xhosa huts, the Matjieshuis and your home. If you
could choose, which house would you stay in and why?
_________________________________________________________________________
_________________________________________________________________________
_______________________________________________________________________
79
Lesson 4 Activity
The learner’s instructions:
You can make any structure that you want. For example a house, a chair, a table, a
container or anything else but the group has to agree on the structure. You should have
collected all the material that you will need. Each group member should have something
do whether it is cutting, pasting, measuring or testing.
80
APPENDIX E: Interview Questions
Interview Questions for the Teacher
1. Biographical information
1.1. What is your name and surname?
1.2. In what age grouping are you? (30-39) (40-49) (50+)
1.3. What is your highest qualification?
1.4. For how many years have you been teaching?
1.5. Is science a major in your area of study?
1.6. Do you teach any other subjects?
2. Share with me how you would have taught this unit?
3. How did you find this method/way of teaching?
4. Do you think that using a story to teach science had a positive impact on the
learning of the learners? If so, in what ways?
5. Did the use of the story influence your teaching?
6. Describe your personal experience of teaching the lessons the first time with Grade
4A and then the second time with Grade 4B?
7. Would you use this method teaching again? If so, why?